https://github.com/mozilla/gecko-dev
Tip revision: 0cdf426b06ee6e7dbde78fd5dd9be8e6012ed406 authored by Ed Morley on 11 January 2013, 22:20:21 UTC
Bug 782633 - Make the "missing output line for total leaks!" failure mode a warning rather than TEST-UNEXPECTED-FAIL; r=ted a=test-only
Bug 782633 - Make the "missing output line for total leaks!" failure mode a warning rather than TEST-UNEXPECTED-FAIL; r=ted a=test-only
Tip revision: 0cdf426
jsapi.h
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sw=4 et tw=78:
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef jsapi_h___
#define jsapi_h___
/*
* JavaScript API.
*/
#include "mozilla/Attributes.h"
#include "mozilla/FloatingPoint.h"
#include "mozilla/StandardInteger.h"
#ifdef __cplusplus
# include "mozilla/ThreadLocal.h"
#endif
#include <stddef.h>
#include <stdio.h>
#include "js-config.h"
#include "jspubtd.h"
#include "jsutil.h"
#include "jsval.h"
#include "js/Utility.h"
#include "gc/Root.h"
#ifdef __cplusplus
#include <limits> /* for std::numeric_limits */
#include "jsalloc.h"
#include "js/Vector.h"
#endif
/************************************************************************/
/* JS::Value can store a full int32_t. */
#define JSVAL_INT_BITS 32
#define JSVAL_INT_MIN ((int32_t)0x80000000)
#define JSVAL_INT_MAX ((int32_t)0x7fffffff)
/************************************************************************/
#ifdef __cplusplus
namespace JS {
/*
* Protecting non-jsval, non-JSObject *, non-JSString * values from collection
*
* Most of the time, the garbage collector's conservative stack scanner works
* behind the scenes, finding all live values and protecting them from being
* collected. However, when JSAPI client code obtains a pointer to data the
* scanner does not know about, owned by an object the scanner does know about,
* Care Must Be Taken.
*
* The scanner recognizes only a select set of types: pointers to JSObjects and
* similar things (JSFunctions, and so on), pointers to JSStrings, and jsvals.
* So while the scanner finds all live |JSString| pointers, it does not notice
* |jschar| pointers.
*
* So suppose we have:
*
* void f(JSString *str) {
* const jschar *ch = JS_GetStringCharsZ(str);
* ... do stuff with ch, but no uses of str ...;
* }
*
* After the call to |JS_GetStringCharsZ|, there are no further uses of
* |str|, which means that the compiler is within its rights to not store
* it anywhere. But because the stack scanner will not notice |ch|, there
* is no longer any live value in this frame that would keep the string
* alive. If |str| is the last reference to that |JSString|, and the
* collector runs while we are using |ch|, the string's array of |jschar|s
* may be freed out from under us.
*
* Note that there is only an issue when 1) we extract a thing X the scanner
* doesn't recognize from 2) a thing Y the scanner does recognize, and 3) if Y
* gets garbage-collected, then X gets freed. If we have code like this:
*
* void g(JSObject *obj) {
* jsval x;
* JS_GetProperty(obj, "x", &x);
* ... do stuff with x ...
* }
*
* there's no problem, because the value we've extracted, x, is a jsval, a
* type that the conservative scanner recognizes.
*
* Conservative GC frees us from the obligation to explicitly root the types it
* knows about, but when we work with derived values like |ch|, we must root
* their owners, as the derived value alone won't keep them alive.
*
* A JS::Anchor is a kind of GC root that allows us to keep the owners of
* derived values like |ch| alive throughout the Anchor's lifetime. We could
* fix the above code as follows:
*
* void f(JSString *str) {
* JS::Anchor<JSString *> a_str(str);
* const jschar *ch = JS_GetStringCharsZ(str);
* ... do stuff with ch, but no uses of str ...;
* }
*
* This simply ensures that |str| will be live until |a_str| goes out of scope.
* As long as we don't retain a pointer to the string's characters for longer
* than that, we have avoided all garbage collection hazards.
*/
template<typename T> class AnchorPermitted;
template<> class AnchorPermitted<JSObject *> { };
template<> class AnchorPermitted<const JSObject *> { };
template<> class AnchorPermitted<JSFunction *> { };
template<> class AnchorPermitted<const JSFunction *> { };
template<> class AnchorPermitted<JSString *> { };
template<> class AnchorPermitted<const JSString *> { };
template<> class AnchorPermitted<Value> { };
template<> class AnchorPermitted<const JSScript *> { };
template<> class AnchorPermitted<JSScript *> { };
template<typename T>
class Anchor: AnchorPermitted<T>
{
public:
Anchor() { }
explicit Anchor(T t) { hold = t; }
inline ~Anchor();
T &get() { return hold; }
const T &get() const { return hold; }
void set(const T &t) { hold = t; }
void operator=(const T &t) { hold = t; }
void clear() { hold = 0; }
private:
T hold;
Anchor(const Anchor &) MOZ_DELETE;
const Anchor &operator=(const Anchor &) MOZ_DELETE;
};
#ifdef __GNUC__
template<typename T>
inline Anchor<T>::~Anchor()
{
/*
* No code is generated for this. But because this is marked 'volatile', G++ will
* assume it has important side-effects, and won't delete it. (G++ never looks at
* the actual text and notices it's empty.) And because we have passed |hold| to
* it, GCC will keep |hold| alive until this point.
*
* The "memory" clobber operand ensures that G++ will not move prior memory
* accesses after the asm --- it's a barrier. Unfortunately, it also means that
* G++ will assume that all memory has changed after the asm, as it would for a
* call to an unknown function. I don't know of a way to avoid that consequence.
*/
asm volatile("":: "g" (hold) : "memory");
}
#else
template<typename T>
inline Anchor<T>::~Anchor()
{
/*
* An adequate portable substitute, for non-structure types.
*
* The compiler promises that, by the end of an expression statement, the
* last-stored value to a volatile object is the same as it would be in an
* unoptimized, direct implementation (the "abstract machine" whose behavior the
* language spec describes). However, the compiler is still free to reorder
* non-volatile accesses across this store --- which is what we must prevent. So
* assigning the held value to a volatile variable, as we do here, is not enough.
*
* In our case, however, garbage collection only occurs at function calls, so it
* is sufficient to ensure that the destructor's store isn't moved earlier across
* any function calls that could collect. It is hard to imagine the compiler
* analyzing the program so thoroughly that it could prove that such motion was
* safe. In practice, compilers treat calls to the collector as opaque operations
* --- in particular, as operations which could access volatile variables, across
* which this destructor must not be moved.
*
* ("Objection, your honor! *Alleged* killer whale!")
*
* The disadvantage of this approach is that it does generate code for the store.
* We do need to use Anchors in some cases where cycles are tight.
*
* NB: there is a Anchor<Value>::~Anchor() specialization below.
*/
volatile T sink;
sink = hold;
}
#endif /* defined(__GNUC__) */
/*
* JS::Value is the C++ interface for a single JavaScript Engine value.
* A few general notes on JS::Value:
*
* - JS::Value has setX() and isX() members for X in
*
* { Int32, Double, String, Boolean, Undefined, Null, Object, Magic }
*
* JS::Value also contains toX() for each of the non-singleton types.
*
* - Magic is a singleton type whose payload contains a JSWhyMagic "reason" for
* the magic value. By providing JSWhyMagic values when creating and checking
* for magic values, it is possible to assert, at runtime, that only magic
* values with the expected reason flow through a particular value. For
* example, if cx->exception has a magic value, the reason must be
* JS_GENERATOR_CLOSING.
*
* - A key difference between JSVAL_* and JS::Value operations is that
* JS::Value gives null a separate type. Thus
*
* JSVAL_IS_OBJECT(v) === v.isObjectOrNull()
* !JSVAL_IS_PRIMITIVE(v) === v.isObject()
*
* To help prevent mistakenly boxing a nullable JSObject* as an object,
* Value::setObject takes a JSObject&. (Conversely, Value::asObject returns a
* JSObject&. A convenience member Value::setObjectOrNull is provided.
*
* - JSVAL_VOID is the same as the singleton value of the Undefined type.
*
* - Note that JS::Value is 8 bytes on 32 and 64-bit architectures. Thus, on
* 32-bit user code should avoid copying jsval/JS::Value as much as possible,
* preferring to pass by const Value &.
*/
class Value
{
public:
/*
* N.B. the default constructor leaves Value unitialized. Adding a default
* constructor prevents Value from being stored in a union.
*/
/*** Mutators ***/
JS_ALWAYS_INLINE
void setNull() {
data.asBits = BUILD_JSVAL(JSVAL_TAG_NULL, 0).asBits;
}
JS_ALWAYS_INLINE
void setUndefined() {
data.asBits = BUILD_JSVAL(JSVAL_TAG_UNDEFINED, 0).asBits;
}
JS_ALWAYS_INLINE
void setInt32(int32_t i) {
data = INT32_TO_JSVAL_IMPL(i);
}
JS_ALWAYS_INLINE
int32_t &getInt32Ref() {
JS_ASSERT(isInt32());
return data.s.payload.i32;
}
JS_ALWAYS_INLINE
void setDouble(double d) {
data = DOUBLE_TO_JSVAL_IMPL(d);
}
JS_ALWAYS_INLINE
double &getDoubleRef() {
JS_ASSERT(isDouble());
return data.asDouble;
}
JS_ALWAYS_INLINE
void setString(JSString *str) {
JS_ASSERT(!IsPoisonedPtr(str));
data = STRING_TO_JSVAL_IMPL(str);
}
JS_ALWAYS_INLINE
void setString(const JS::Anchor<JSString *> &str) {
setString(str.get());
}
JS_ALWAYS_INLINE
void setObject(JSObject &obj) {
JS_ASSERT(!IsPoisonedPtr(&obj));
data = OBJECT_TO_JSVAL_IMPL(&obj);
}
JS_ALWAYS_INLINE
void setBoolean(bool b) {
data = BOOLEAN_TO_JSVAL_IMPL(b);
}
JS_ALWAYS_INLINE
void setMagic(JSWhyMagic why) {
data = MAGIC_TO_JSVAL_IMPL(why);
}
JS_ALWAYS_INLINE
bool setNumber(uint32_t ui) {
if (ui > JSVAL_INT_MAX) {
setDouble((double)ui);
return false;
} else {
setInt32((int32_t)ui);
return true;
}
}
JS_ALWAYS_INLINE
bool setNumber(double d) {
int32_t i;
if (MOZ_DOUBLE_IS_INT32(d, &i)) {
setInt32(i);
return true;
} else {
setDouble(d);
return false;
}
}
JS_ALWAYS_INLINE
void setObjectOrNull(JSObject *arg) {
if (arg)
setObject(*arg);
else
setNull();
}
JS_ALWAYS_INLINE
void swap(Value &rhs) {
uint64_t tmp = rhs.data.asBits;
rhs.data.asBits = data.asBits;
data.asBits = tmp;
}
/*** Value type queries ***/
JS_ALWAYS_INLINE
bool isUndefined() const {
return JSVAL_IS_UNDEFINED_IMPL(data);
}
JS_ALWAYS_INLINE
bool isNull() const {
return JSVAL_IS_NULL_IMPL(data);
}
JS_ALWAYS_INLINE
bool isNullOrUndefined() const {
return isNull() || isUndefined();
}
JS_ALWAYS_INLINE
bool isInt32() const {
return JSVAL_IS_INT32_IMPL(data);
}
JS_ALWAYS_INLINE
bool isInt32(int32_t i32) const {
return JSVAL_IS_SPECIFIC_INT32_IMPL(data, i32);
}
JS_ALWAYS_INLINE
bool isDouble() const {
return JSVAL_IS_DOUBLE_IMPL(data);
}
JS_ALWAYS_INLINE
bool isNumber() const {
return JSVAL_IS_NUMBER_IMPL(data);
}
JS_ALWAYS_INLINE
bool isString() const {
return JSVAL_IS_STRING_IMPL(data);
}
JS_ALWAYS_INLINE
bool isObject() const {
return JSVAL_IS_OBJECT_IMPL(data);
}
JS_ALWAYS_INLINE
bool isPrimitive() const {
return JSVAL_IS_PRIMITIVE_IMPL(data);
}
JS_ALWAYS_INLINE
bool isObjectOrNull() const {
return JSVAL_IS_OBJECT_OR_NULL_IMPL(data);
}
JS_ALWAYS_INLINE
bool isGCThing() const {
return JSVAL_IS_GCTHING_IMPL(data);
}
JS_ALWAYS_INLINE
bool isBoolean() const {
return JSVAL_IS_BOOLEAN_IMPL(data);
}
JS_ALWAYS_INLINE
bool isTrue() const {
return JSVAL_IS_SPECIFIC_BOOLEAN(data, true);
}
JS_ALWAYS_INLINE
bool isFalse() const {
return JSVAL_IS_SPECIFIC_BOOLEAN(data, false);
}
JS_ALWAYS_INLINE
bool isMagic() const {
return JSVAL_IS_MAGIC_IMPL(data);
}
JS_ALWAYS_INLINE
bool isMagic(JSWhyMagic why) const {
JS_ASSERT_IF(isMagic(), data.s.payload.why == why);
return JSVAL_IS_MAGIC_IMPL(data);
}
JS_ALWAYS_INLINE
bool isMarkable() const {
return JSVAL_IS_TRACEABLE_IMPL(data);
}
JS_ALWAYS_INLINE
JSGCTraceKind gcKind() const {
JS_ASSERT(isMarkable());
return JSGCTraceKind(JSVAL_TRACE_KIND_IMPL(data));
}
JS_ALWAYS_INLINE
JSWhyMagic whyMagic() const {
JS_ASSERT(isMagic());
return data.s.payload.why;
}
/*** Comparison ***/
JS_ALWAYS_INLINE
bool operator==(const Value &rhs) const {
return data.asBits == rhs.data.asBits;
}
JS_ALWAYS_INLINE
bool operator!=(const Value &rhs) const {
return data.asBits != rhs.data.asBits;
}
friend inline bool SameType(const Value &lhs, const Value &rhs);
/*** Extract the value's typed payload ***/
JS_ALWAYS_INLINE
int32_t toInt32() const {
JS_ASSERT(isInt32());
return JSVAL_TO_INT32_IMPL(data);
}
JS_ALWAYS_INLINE
double toDouble() const {
JS_ASSERT(isDouble());
return data.asDouble;
}
JS_ALWAYS_INLINE
double toNumber() const {
JS_ASSERT(isNumber());
return isDouble() ? toDouble() : double(toInt32());
}
JS_ALWAYS_INLINE
JSString *toString() const {
JS_ASSERT(isString());
return JSVAL_TO_STRING_IMPL(data);
}
JS_ALWAYS_INLINE
JSObject &toObject() const {
JS_ASSERT(isObject());
return *JSVAL_TO_OBJECT_IMPL(data);
}
JS_ALWAYS_INLINE
JSObject *toObjectOrNull() const {
JS_ASSERT(isObjectOrNull());
return JSVAL_TO_OBJECT_IMPL(data);
}
JS_ALWAYS_INLINE
void *toGCThing() const {
JS_ASSERT(isGCThing());
return JSVAL_TO_GCTHING_IMPL(data);
}
JS_ALWAYS_INLINE
bool toBoolean() const {
JS_ASSERT(isBoolean());
return JSVAL_TO_BOOLEAN_IMPL(data);
}
JS_ALWAYS_INLINE
uint32_t payloadAsRawUint32() const {
JS_ASSERT(!isDouble());
return data.s.payload.u32;
}
JS_ALWAYS_INLINE
uint64_t asRawBits() const {
return data.asBits;
}
JS_ALWAYS_INLINE
JSValueType extractNonDoubleType() const {
return JSVAL_EXTRACT_NON_DOUBLE_TYPE_IMPL(data);
}
/*
* Private API
*
* Private setters/getters allow the caller to read/write arbitrary types
* that fit in the 64-bit payload. It is the caller's responsibility, after
* storing to a value with setPrivateX to read only using getPrivateX.
* Privates values are given a type type which ensures they are not marked.
*/
JS_ALWAYS_INLINE
void setPrivate(void *ptr) {
data = PRIVATE_PTR_TO_JSVAL_IMPL(ptr);
}
JS_ALWAYS_INLINE
void *toPrivate() const {
JS_ASSERT(JSVAL_IS_DOUBLE_IMPL(data));
return JSVAL_TO_PRIVATE_PTR_IMPL(data);
}
JS_ALWAYS_INLINE
void setPrivateUint32(uint32_t ui) {
data = PRIVATE_UINT32_TO_JSVAL_IMPL(ui);
}
JS_ALWAYS_INLINE
uint32_t toPrivateUint32() const {
JS_ASSERT(JSVAL_IS_DOUBLE_IMPL(data));
return JSVAL_TO_PRIVATE_UINT32_IMPL(data);
}
JS_ALWAYS_INLINE
uint32_t &getPrivateUint32Ref() {
JS_ASSERT(isDouble());
return data.s.payload.u32;
}
/*
* An unmarked value is just a void* cast as a Value. Thus, the Value is
* not safe for GC and must not be marked. This API avoids raw casts
* and the ensuing strict-aliasing warnings.
*/
JS_ALWAYS_INLINE
void setUnmarkedPtr(void *ptr) {
data.asPtr = ptr;
}
JS_ALWAYS_INLINE
void *toUnmarkedPtr() const {
return data.asPtr;
}
const size_t *payloadWord() const {
#if JS_BITS_PER_WORD == 32
return &data.s.payload.word;
#elif JS_BITS_PER_WORD == 64
return &data.asWord;
#endif
}
const uintptr_t *payloadUIntPtr() const {
#if JS_BITS_PER_WORD == 32
return &data.s.payload.uintptr;
#elif JS_BITS_PER_WORD == 64
return &data.asUIntPtr;
#endif
}
#if !defined(_MSC_VER) && !defined(__sparc)
/* To make jsval binary compatible when linking across C and C++ with MSVC,
* JS::Value needs to be POD. Otherwise, jsval will be passed in memory
* in C++ but by value in C (bug 645111).
* Same issue for SPARC ABI. (bug 737344).
*/
private:
#endif
jsval_layout data;
private:
void staticAssertions() {
JS_STATIC_ASSERT(sizeof(JSValueType) == 1);
JS_STATIC_ASSERT(sizeof(JSValueTag) == 4);
JS_STATIC_ASSERT(sizeof(JSBool) == 4);
JS_STATIC_ASSERT(sizeof(JSWhyMagic) <= 4);
JS_STATIC_ASSERT(sizeof(Value) == 8);
}
friend jsval_layout (::JSVAL_TO_IMPL)(Value);
friend Value (::IMPL_TO_JSVAL)(jsval_layout l);
};
inline bool
IsPoisonedValue(const Value &v)
{
if (v.isString())
return IsPoisonedPtr(v.toString());
if (v.isObject())
return IsPoisonedPtr(&v.toObject());
return false;
}
/************************************************************************/
static JS_ALWAYS_INLINE Value
NullValue()
{
Value v;
v.setNull();
return v;
}
static JS_ALWAYS_INLINE Value
UndefinedValue()
{
Value v;
v.setUndefined();
return v;
}
static JS_ALWAYS_INLINE Value
Int32Value(int32_t i32)
{
Value v;
v.setInt32(i32);
return v;
}
static JS_ALWAYS_INLINE Value
DoubleValue(double dbl)
{
Value v;
v.setDouble(dbl);
return v;
}
static JS_ALWAYS_INLINE Value
StringValue(JSString *str)
{
Value v;
v.setString(str);
return v;
}
static JS_ALWAYS_INLINE Value
BooleanValue(bool boo)
{
Value v;
v.setBoolean(boo);
return v;
}
static JS_ALWAYS_INLINE Value
ObjectValue(JSObject &obj)
{
Value v;
v.setObject(obj);
return v;
}
static JS_ALWAYS_INLINE Value
ObjectValueCrashOnTouch()
{
Value v;
v.setObject(*reinterpret_cast<JSObject *>(0x42));
return v;
}
static JS_ALWAYS_INLINE Value
MagicValue(JSWhyMagic why)
{
Value v;
v.setMagic(why);
return v;
}
static JS_ALWAYS_INLINE Value
NumberValue(float f)
{
Value v;
v.setNumber(f);
return v;
}
static JS_ALWAYS_INLINE Value
NumberValue(double dbl)
{
Value v;
v.setNumber(dbl);
return v;
}
static JS_ALWAYS_INLINE Value
NumberValue(int8_t i)
{
return Int32Value(i);
}
static JS_ALWAYS_INLINE Value
NumberValue(uint8_t i)
{
return Int32Value(i);
}
static JS_ALWAYS_INLINE Value
NumberValue(int16_t i)
{
return Int32Value(i);
}
static JS_ALWAYS_INLINE Value
NumberValue(uint16_t i)
{
return Int32Value(i);
}
static JS_ALWAYS_INLINE Value
NumberValue(int32_t i)
{
return Int32Value(i);
}
static JS_ALWAYS_INLINE Value
NumberValue(uint32_t i)
{
Value v;
v.setNumber(i);
return v;
}
namespace detail {
template <bool Signed>
class MakeNumberValue
{
public:
template<typename T>
static inline Value create(const T t)
{
Value v;
if (JSVAL_INT_MIN <= t && t <= JSVAL_INT_MAX)
v.setInt32(int32_t(t));
else
v.setDouble(double(t));
return v;
}
};
template <>
class MakeNumberValue<false>
{
public:
template<typename T>
static inline Value create(const T t)
{
Value v;
if (t <= JSVAL_INT_MAX)
v.setInt32(int32_t(t));
else
v.setDouble(double(t));
return v;
}
};
} /* namespace detail */
template <typename T>
static JS_ALWAYS_INLINE Value
NumberValue(const T t)
{
MOZ_ASSERT(T(double(t)) == t, "value creation would be lossy");
return detail::MakeNumberValue<std::numeric_limits<T>::is_signed>::create(t);
}
static JS_ALWAYS_INLINE Value
ObjectOrNullValue(JSObject *obj)
{
Value v;
v.setObjectOrNull(obj);
return v;
}
static JS_ALWAYS_INLINE Value
PrivateValue(void *ptr)
{
Value v;
v.setPrivate(ptr);
return v;
}
static JS_ALWAYS_INLINE Value
PrivateUint32Value(uint32_t ui)
{
Value v;
v.setPrivateUint32(ui);
return v;
}
JS_ALWAYS_INLINE bool
SameType(const Value &lhs, const Value &rhs)
{
return JSVAL_SAME_TYPE_IMPL(lhs.data, rhs.data);
}
} /* namespace JS */
/************************************************************************/
namespace js {
template <> struct RootMethods<const JS::Value>
{
static JS::Value initial() { return UndefinedValue(); }
static ThingRootKind kind() { return THING_ROOT_VALUE; }
static bool poisoned(const JS::Value &v) { return IsPoisonedValue(v); }
};
template <> struct RootMethods<JS::Value>
{
static JS::Value initial() { return UndefinedValue(); }
static ThingRootKind kind() { return THING_ROOT_VALUE; }
static bool poisoned(const JS::Value &v) { return IsPoisonedValue(v); }
};
template <class Outer> class MutableValueOperations;
/*
* A class designed for CRTP use in implementing the non-mutating parts of the
* Value interface in Value-like classes. Outer must be a class inheriting
* ValueOperations<Outer> with a visible extract() method returning the
* const Value* abstracted by Outer.
*/
template <class Outer>
class ValueOperations
{
friend class MutableValueOperations<Outer>;
const JS::Value * value() const { return static_cast<const Outer*>(this)->extract(); }
public:
bool isUndefined() const { return value()->isUndefined(); }
bool isNull() const { return value()->isNull(); }
bool isBoolean() const { return value()->isBoolean(); }
bool isTrue() const { return value()->isTrue(); }
bool isFalse() const { return value()->isFalse(); }
bool isNumber() const { return value()->isNumber(); }
bool isInt32() const { return value()->isInt32(); }
bool isDouble() const { return value()->isDouble(); }
bool isString() const { return value()->isString(); }
bool isObject() const { return value()->isObject(); }
bool isMagic() const { return value()->isMagic(); }
bool isMagic(JSWhyMagic why) const { return value()->isMagic(why); }
bool isMarkable() const { return value()->isMarkable(); }
bool isPrimitive() const { return value()->isPrimitive(); }
bool isGCThing() const { return value()->isGCThing(); }
bool isNullOrUndefined() const { return value()->isNullOrUndefined(); }
bool isObjectOrNull() const { return value()->isObjectOrNull(); }
bool toBoolean() const { return value()->toBoolean(); }
double toNumber() const { return value()->toNumber(); }
int32_t toInt32() const { return value()->toInt32(); }
double toDouble() const { return value()->toDouble(); }
JSString *toString() const { return value()->toString(); }
JSObject &toObject() const { return value()->toObject(); }
JSObject *toObjectOrNull() const { return value()->toObjectOrNull(); }
void *toGCThing() const { return value()->toGCThing(); }
#ifdef DEBUG
JSWhyMagic whyMagic() const { return value()->whyMagic(); }
#endif
};
/*
* A class designed for CRTP use in implementing the mutating parts of the
* Value interface in Value-like classes. Outer must be a class inheriting
* MutableValueOperations<Outer> with visible extractMutable() and extract()
* methods returning the const Value* and Value* abstracted by Outer.
*/
template <class Outer>
class MutableValueOperations : public ValueOperations<Outer>
{
JS::Value * value() { return static_cast<Outer*>(this)->extractMutable(); }
public:
void setNull() { value()->setNull(); }
void setUndefined() { value()->setUndefined(); }
void setInt32(int32_t i) { value()->setInt32(i); }
void setDouble(double d) { value()->setDouble(d); }
void setString(JSString *str) { value()->setString(str); }
void setString(const JS::Anchor<JSString *> &str) { value()->setString(str); }
void setObject(JSObject &obj) { value()->setObject(obj); }
void setBoolean(bool b) { value()->setBoolean(b); }
void setMagic(JSWhyMagic why) { value()->setMagic(why); }
bool setNumber(uint32_t ui) { return value()->setNumber(ui); }
bool setNumber(double d) { return value()->setNumber(d); }
void setObjectOrNull(JSObject *arg) { value()->setObjectOrNull(arg); }
};
/*
* Augment the generic Handle<T> interface when T = Value with type-querying
* and value-extracting operations.
*/
template <>
class HandleBase<JS::Value> : public ValueOperations<Handle<JS::Value> >
{
friend class ValueOperations<Handle<JS::Value> >;
const JS::Value * extract() const {
return static_cast<const Handle<JS::Value>*>(this)->address();
}
};
/*
* Augment the generic MutableHandle<T> interface when T = Value with
* type-querying, value-extracting, and mutating operations.
*/
template <>
class MutableHandleBase<JS::Value> : public MutableValueOperations<MutableHandle<JS::Value> >
{
friend class ValueOperations<MutableHandle<JS::Value> >;
const JS::Value * extract() const {
return static_cast<const MutableHandle<JS::Value>*>(this)->address();
}
friend class MutableValueOperations<MutableHandle<JS::Value> >;
JS::Value * extractMutable() {
return static_cast<MutableHandle<JS::Value>*>(this)->address();
}
};
/*
* Augment the generic Rooted<T> interface when T = Value with type-querying,
* value-extracting, and mutating operations.
*/
template <>
class RootedBase<JS::Value> : public MutableValueOperations<Rooted<JS::Value> >
{
friend class ValueOperations<Rooted<JS::Value> >;
const JS::Value * extract() const {
return static_cast<const Rooted<JS::Value>*>(this)->address();
}
friend class MutableValueOperations<Rooted<JS::Value> >;
JS::Value * extractMutable() {
return static_cast<Rooted<JS::Value>*>(this)->address();
}
};
} /* namespace js */
/************************************************************************/
namespace JS {
#ifndef __GNUC__
/*
* The default assignment operator for |struct C| has the signature:
*
* C& C::operator=(const C&)
*
* And in particular requires implicit conversion of |this| to type |C| for the
* return value. But |volatile C| cannot thus be converted to |C|, so just
* doing |sink = hold| as in the non-specialized version would fail to compile.
* Do the assignment on asBits instead, since I don't think we want to give
* jsval_layout an assignment operator returning |volatile jsval_layout|.
*/
template<>
inline Anchor<Value>::~Anchor()
{
volatile uint64_t bits;
bits = JSVAL_TO_IMPL(hold).asBits;
}
#endif
#if defined JS_THREADSAFE && defined DEBUG
class JS_PUBLIC_API(AutoCheckRequestDepth)
{
JSContext *cx;
public:
AutoCheckRequestDepth(JSContext *cx);
~AutoCheckRequestDepth();
};
# define CHECK_REQUEST(cx) \
JS::AutoCheckRequestDepth _autoCheckRequestDepth(cx)
#else
# define CHECK_REQUEST(cx) \
((void) 0)
#endif /* JS_THREADSAFE && DEBUG */
#ifdef DEBUG
/*
* Assert that we're not doing GC on cx, that we're in a request as
* needed, and that the compartments for cx and v are correct.
* Also check that GC would be safe at this point.
*/
JS_PUBLIC_API(void)
AssertArgumentsAreSane(JSContext *cx, const Value &v);
#else
inline void AssertArgumentsAreSane(JSContext *cx, const Value &v) {
/* Do nothing */
}
#endif /* DEBUG */
class JS_PUBLIC_API(AutoGCRooter) {
public:
AutoGCRooter(JSContext *cx, ptrdiff_t tag);
~AutoGCRooter() {
JS_ASSERT(this == *stackTop);
*stackTop = down;
}
/* Implemented in jsgc.cpp. */
inline void trace(JSTracer *trc);
static void traceAll(JSTracer *trc);
protected:
AutoGCRooter * const down;
/*
* Discriminates actual subclass of this being used. If non-negative, the
* subclass roots an array of values of the length stored in this field.
* If negative, meaning is indicated by the corresponding value in the enum
* below. Any other negative value indicates some deeper problem such as
* memory corruption.
*/
ptrdiff_t tag;
enum {
JSVAL = -1, /* js::AutoValueRooter */
VALARRAY = -2, /* js::AutoValueArrayRooter */
PARSER = -3, /* js::frontend::Parser */
SHAPEVECTOR = -4, /* js::AutoShapeVector */
IDARRAY = -6, /* js::AutoIdArray */
DESCRIPTORS = -7, /* js::AutoPropDescArrayRooter */
NAMESPACES = -8, /* js::AutoNamespaceArray */
XML = -9, /* js::AutoXMLRooter */
OBJECT = -10, /* js::AutoObjectRooter */
ID = -11, /* js::AutoIdRooter */
VALVECTOR = -12, /* js::AutoValueVector */
DESCRIPTOR = -13, /* js::AutoPropertyDescriptorRooter */
STRING = -14, /* js::AutoStringRooter */
IDVECTOR = -15, /* js::AutoIdVector */
OBJVECTOR = -16, /* js::AutoObjectVector */
STRINGVECTOR =-17, /* js::AutoStringVector */
SCRIPTVECTOR =-18, /* js::AutoScriptVector */
PROPDESC = -19, /* js::PropDesc::AutoRooter */
SHAPERANGE = -20, /* js::Shape::Range::AutoRooter */
STACKSHAPE = -21, /* js::StackShape::AutoRooter */
STACKBASESHAPE=-22,/* js::StackBaseShape::AutoRooter */
GETTERSETTER =-24, /* js::AutoRooterGetterSetter */
REGEXPSTATICS=-25, /* js::RegExpStatics::AutoRooter */
NAMEVECTOR = -26, /* js::AutoNameVector */
HASHABLEVALUE=-27,
IONMASM = -28, /* js::ion::MacroAssembler */
IONALLOC = -29 /* js::ion::AutoTempAllocatorRooter */
};
private:
AutoGCRooter ** const stackTop;
/* No copy or assignment semantics. */
AutoGCRooter(AutoGCRooter &ida) MOZ_DELETE;
void operator=(AutoGCRooter &ida) MOZ_DELETE;
};
class AutoValueRooter : private AutoGCRooter
{
public:
explicit AutoValueRooter(JSContext *cx
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, JSVAL), val(NullValue())
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
AutoValueRooter(JSContext *cx, const Value &v
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, JSVAL), val(v)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
/*
* If you are looking for Object* overloads, use AutoObjectRooter instead;
* rooting Object*s as a js::Value requires discerning whether or not it is
* a function object. Also, AutoObjectRooter is smaller.
*/
void set(Value v) {
JS_ASSERT(tag == JSVAL);
val = v;
}
const Value &value() const {
JS_ASSERT(tag == JSVAL);
return val;
}
Value *addr() {
JS_ASSERT(tag == JSVAL);
return &val;
}
const Value &jsval_value() const {
JS_ASSERT(tag == JSVAL);
return val;
}
Value *jsval_addr() {
JS_ASSERT(tag == JSVAL);
return &val;
}
friend void AutoGCRooter::trace(JSTracer *trc);
private:
Value val;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class AutoObjectRooter : private AutoGCRooter {
public:
AutoObjectRooter(JSContext *cx, JSObject *obj = NULL
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, OBJECT), obj(obj)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
void setObject(JSObject *obj) {
this->obj = obj;
}
JSObject * object() const {
return obj;
}
JSObject ** addr() {
return &obj;
}
friend void AutoGCRooter::trace(JSTracer *trc);
private:
JSObject *obj;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class AutoStringRooter : private AutoGCRooter {
public:
AutoStringRooter(JSContext *cx, JSString *str = NULL
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, STRING), str(str)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
void setString(JSString *str) {
this->str = str;
}
JSString * string() const {
return str;
}
JSString ** addr() {
return &str;
}
JSString * const * addr() const {
return &str;
}
friend void AutoGCRooter::trace(JSTracer *trc);
private:
JSString *str;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class AutoArrayRooter : private AutoGCRooter {
public:
AutoArrayRooter(JSContext *cx, size_t len, Value *vec
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, len), array(vec), skip(cx, array, len)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
JS_ASSERT(tag >= 0);
}
void changeLength(size_t newLength) {
tag = ptrdiff_t(newLength);
JS_ASSERT(tag >= 0);
}
void changeArray(Value *newArray, size_t newLength) {
changeLength(newLength);
array = newArray;
}
Value *array;
friend void AutoGCRooter::trace(JSTracer *trc);
private:
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
js::SkipRoot skip;
};
template<class T>
class AutoVectorRooter : protected AutoGCRooter
{
public:
explicit AutoVectorRooter(JSContext *cx, ptrdiff_t tag
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, tag), vector(cx), vectorRoot(cx, &vector)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
typedef T ElementType;
size_t length() const { return vector.length(); }
bool empty() const { return vector.empty(); }
bool append(const T &v) { return vector.append(v); }
bool append(const AutoVectorRooter<T> &other) {
return vector.append(other.vector);
}
/* For use when space has already been reserved. */
void infallibleAppend(const T &v) { vector.infallibleAppend(v); }
void popBack() { vector.popBack(); }
T popCopy() { return vector.popCopy(); }
bool growBy(size_t inc) {
size_t oldLength = vector.length();
if (!vector.growByUninitialized(inc))
return false;
makeRangeGCSafe(oldLength);
return true;
}
bool resize(size_t newLength) {
size_t oldLength = vector.length();
if (newLength <= oldLength) {
vector.shrinkBy(oldLength - newLength);
return true;
}
if (!vector.growByUninitialized(newLength - oldLength))
return false;
makeRangeGCSafe(oldLength);
return true;
}
void clear() { vector.clear(); }
bool reserve(size_t newLength) {
return vector.reserve(newLength);
}
T &operator[](size_t i) { return vector[i]; }
const T &operator[](size_t i) const { return vector[i]; }
JS::MutableHandle<T> handleAt(size_t i) { return JS::MutableHandle<T>::fromMarkedLocation(&vector[i]); }
JS::Handle<T> handleAt(size_t i) const { return JS::Handle<T>::fromMarkedLocation(&vector[i]); }
const T *begin() const { return vector.begin(); }
T *begin() { return vector.begin(); }
const T *end() const { return vector.end(); }
T *end() { return vector.end(); }
const T &back() const { return vector.back(); }
friend void AutoGCRooter::trace(JSTracer *trc);
private:
void makeRangeGCSafe(size_t oldLength) {
T *t = vector.begin() + oldLength;
for (size_t i = oldLength; i < vector.length(); ++i, ++t)
memset(t, 0, sizeof(T));
}
typedef js::Vector<T, 8> VectorImpl;
VectorImpl vector;
/* Prevent overwriting of inline elements in vector. */
js::SkipRoot vectorRoot;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class AutoValueVector : public AutoVectorRooter<Value>
{
public:
explicit AutoValueVector(JSContext *cx
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoVectorRooter<Value>(cx, VALVECTOR)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class AutoIdVector : public AutoVectorRooter<jsid>
{
public:
explicit AutoIdVector(JSContext *cx
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoVectorRooter<jsid>(cx, IDVECTOR)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class AutoScriptVector : public AutoVectorRooter<JSScript *>
{
public:
explicit AutoScriptVector(JSContext *cx
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoVectorRooter<JSScript *>(cx, SCRIPTVECTOR)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
class CallReceiver
{
protected:
#ifdef DEBUG
mutable bool usedRval_;
void setUsedRval() const { usedRval_ = true; }
void clearUsedRval() const { usedRval_ = false; }
#else
void setUsedRval() const {}
void clearUsedRval() const {}
#endif
Value *argv_;
public:
friend CallReceiver CallReceiverFromVp(Value *);
friend CallReceiver CallReceiverFromArgv(Value *);
Value *base() const { return argv_ - 2; }
JSObject &callee() const { JS_ASSERT(!usedRval_); return argv_[-2].toObject(); }
JS::HandleValue calleev() const {
JS_ASSERT(!usedRval_);
return JS::HandleValue::fromMarkedLocation(&argv_[-2]);
}
JS::HandleValue thisv() const {
return JS::HandleValue::fromMarkedLocation(&argv_[-1]);
}
JS::MutableHandleValue rval() const {
setUsedRval();
return JS::MutableHandleValue::fromMarkedLocation(&argv_[-2]);
}
Value *spAfterCall() const {
setUsedRval();
return argv_ - 1;
}
void setCallee(Value calleev) const {
clearUsedRval();
argv_[-2] = calleev;
}
void setThis(Value thisv) const {
argv_[-1] = thisv;
}
};
JS_ALWAYS_INLINE CallReceiver
CallReceiverFromArgv(Value *argv)
{
CallReceiver receiver;
receiver.clearUsedRval();
receiver.argv_ = argv;
return receiver;
}
JS_ALWAYS_INLINE CallReceiver
CallReceiverFromVp(Value *vp)
{
return CallReceiverFromArgv(vp + 2);
}
/*****************************************************************************/
class CallArgs : public CallReceiver
{
protected:
unsigned argc_;
public:
friend CallArgs CallArgsFromVp(unsigned, Value *);
friend CallArgs CallArgsFromArgv(unsigned, Value *);
friend CallArgs CallArgsFromSp(unsigned, Value *);
Value &operator[](unsigned i) const { JS_ASSERT(i < argc_); return argv_[i]; }
Value *array() const { return argv_; }
unsigned length() const { return argc_; }
Value *end() const { return argv_ + argc_; }
bool hasDefined(unsigned i) const { return i < argc_ && !argv_[i].isUndefined(); }
};
JS_ALWAYS_INLINE CallArgs
CallArgsFromArgv(unsigned argc, Value *argv)
{
CallArgs args;
args.clearUsedRval();
args.argv_ = argv;
args.argc_ = argc;
return args;
}
JS_ALWAYS_INLINE CallArgs
CallArgsFromVp(unsigned argc, Value *vp)
{
return CallArgsFromArgv(argc, vp + 2);
}
JS_ALWAYS_INLINE CallArgs
CallArgsFromSp(unsigned argc, Value *sp)
{
return CallArgsFromArgv(argc, sp - argc);
}
/* Returns true if |v| is considered an acceptable this-value. */
typedef bool (*IsAcceptableThis)(const Value &v);
/*
* Implements the guts of a method; guaranteed to be provided an acceptable
* this-value, as determined by a corresponding IsAcceptableThis method.
*/
typedef bool (*NativeImpl)(JSContext *cx, CallArgs args);
namespace detail {
/* DON'T CALL THIS DIRECTLY. It's for use only by CallNonGenericMethod! */
extern JS_PUBLIC_API(bool)
CallMethodIfWrapped(JSContext *cx, IsAcceptableThis test, NativeImpl impl, CallArgs args);
} /* namespace detail */
/*
* Methods usually act upon |this| objects only from a single global object and
* compartment. Sometimes, however, a method must act upon |this| values from
* multiple global objects or compartments. In such cases the |this| value a
* method might see will be wrapped, such that various access to the object --
* to its class, its private data, its reserved slots, and so on -- will not
* work properly without entering that object's compartment. This method
* implements a solution to this problem.
*
* To implement a method that accepts |this| values from multiple compartments,
* define two functions. The first function matches the IsAcceptableThis type
* and indicates whether the provided value is an acceptable |this| for the
* method; it must be a pure function only of its argument.
*
* static JSClass AnswerClass = { ... };
*
* static bool
* IsAnswerObject(const Value &v)
* {
* if (!v.isObject())
* return false;
* return JS_GetClass(&v.toObject()) == &AnswerClass;
* }
*
* The second function implements the NativeImpl signature and defines the
* behavior of the method when it is provided an acceptable |this| value.
* Aside from some typing niceties -- see the CallArgs interface for details --
* its interface is the same as that of JSNative.
*
* static bool
* answer_getAnswer_impl(JSContext *cx, JS::CallArgs args)
* {
* args.rval().setInt32(42);
* return true;
* }
*
* The implementation function is guaranteed to be called *only* with a |this|
* value which is considered acceptable.
*
* Now to implement the actual method, write a JSNative that calls the method
* declared below, passing the appropriate template and runtime arguments.
*
* static JSBool
* answer_getAnswer(JSContext *cx, unsigned argc, JS::Value *vp)
* {
* JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
* return JS::CallNonGenericMethod<IsAnswerObject, answer_getAnswer_impl>(cx, args);
* }
*
* Note that, because they are used as template arguments, the predicate
* and implementation functions must have external linkage. (This is
* unfortunate, but GCC wasn't inlining things as one would hope when we
* passed them as function arguments.)
*
* JS::CallNonGenericMethod will test whether |args.thisv()| is acceptable. If
* it is, it will call the provided implementation function, which will return
* a value and indicate success. If it is not, it will attempt to unwrap
* |this| and call the implementation function on the unwrapped |this|. If
* that succeeds, all well and good. If it doesn't succeed, a TypeError will
* be thrown.
*
* Note: JS::CallNonGenericMethod will only work correctly if it's called in
* tail position in a JSNative. Do not call it from any other place.
*/
template<IsAcceptableThis Test, NativeImpl Impl>
JS_ALWAYS_INLINE bool
CallNonGenericMethod(JSContext *cx, CallArgs args)
{
const Value &thisv = args.thisv();
if (Test(thisv))
return Impl(cx, args);
return detail::CallMethodIfWrapped(cx, Test, Impl, args);
}
JS_ALWAYS_INLINE bool
CallNonGenericMethod(JSContext *cx, IsAcceptableThis Test, NativeImpl Impl, CallArgs args)
{
const Value &thisv = args.thisv();
if (Test(thisv))
return Impl(cx, args);
return detail::CallMethodIfWrapped(cx, Test, Impl, args);
}
} /* namespace JS */
/************************************************************************/
/*
* JS::Value and jsval are the same type; jsval is the old name, kept around
* for backwards compatibility along with all the JSVAL_* operations below.
* jsval_layout is an implementation detail and should not be used externally.
*/
typedef JS::Value jsval;
static JS_ALWAYS_INLINE jsval_layout
JSVAL_TO_IMPL(jsval v)
{
return v.data;
}
static JS_ALWAYS_INLINE jsval
IMPL_TO_JSVAL(jsval_layout l)
{
JS::Value v;
v.data = l;
return v;
}
#ifdef DEBUG
struct JSValueAlignmentTester { char c; JS::Value v; };
JS_STATIC_ASSERT(sizeof(JSValueAlignmentTester) == 16);
#endif /* DEBUG */
#else /* defined(__cplusplus) */
/*
* For SpiderMonkey C clients, there is no JS::Value class, only the
* traditional jsval with the traditional JSVAL_* operations. Since
* SpiderMonkey itself is always compiled as C++, this relies on the binary
* compatibility of jsval_layout and JS::Value (statically asserted below).
*/
typedef union jsval_layout jsval;
static JS_ALWAYS_INLINE jsval_layout
JSVAL_TO_IMPL(jsval v)
{
return v;
}
static JS_ALWAYS_INLINE jsval
IMPL_TO_JSVAL(jsval_layout l)
{
return l;
}
#endif /* defined(__cplusplus) */
#ifdef DEBUG
typedef struct { char c; jsval_layout l; } JSLayoutAlignmentTester;
JS_STATIC_ASSERT(sizeof(JSLayoutAlignmentTester) == 16);
#endif /* DEBUG */
JS_STATIC_ASSERT(sizeof(jsval_layout) == sizeof(jsval));
/************************************************************************/
#ifdef __cplusplus
typedef JS::Handle<JSObject*> JSHandleObject;
typedef JS::Handle<JSString*> JSHandleString;
typedef JS::Handle<JS::Value> JSHandleValue;
typedef JS::Handle<jsid> JSHandleId;
typedef JS::MutableHandle<JSObject*> JSMutableHandleObject;
typedef JS::MutableHandle<JSFunction*> JSMutableHandleFunction;
typedef JS::MutableHandle<JSScript*> JSMutableHandleScript;
typedef JS::MutableHandle<JSString*> JSMutableHandleString;
typedef JS::MutableHandle<JS::Value> JSMutableHandleValue;
typedef JS::MutableHandle<jsid> JSMutableHandleId;
typedef JS::RawObject JSRawObject;
typedef JS::RawFunction JSRawFunction;
typedef JS::RawScript JSRawScript;
typedef JS::RawString JSRawString;
typedef JS::RawId JSRawId;
typedef JS::RawValue JSRawValue;
#else
/*
* Handle support for C API users. Handles must be destroyed in the reverse
* order that they were created (as in a stack).
*/
typedef struct { JSObject **_; } JSHandleObject;
typedef struct { JSString **_; } JSHandleString;
typedef struct { jsval *_; } JSHandleValue;
typedef struct { jsid *_; } JSHandleId;
typedef struct { JSObject **_; } JSMutableHandleObject;
typedef struct { JSFunction **_; } JSMutableHandleFunction;
typedef struct { JSScript **_; } JSMutableHandleScript;
typedef struct { JSString **_; } JSMutableHandleString;
typedef struct { jsval *_; } JSMutableHandleValue;
typedef struct { jsid *_; } JSMutableHandleId;
typedef JSObject *JSRawObject;
typedef JSFunction *JSRawFunction;
typedef JSScript *JSRawScript;
typedef JSString *JSRawString;
typedef jsid *JSRawId;
typedef jsval *JSRawValue;
JSBool JS_CreateHandleObject(JSContext *cx, JSObject *obj, JSHandleObject *phandle);
void JS_DestroyHandleObject(JSContext *cx, JSHandleObject handle);
JSBool JS_CreateMutableHandleObject(JSContext *cx, JSObject *obj, JSMutableHandleObject *phandle);
void JS_DestroyMutableHandleObject(JSContext *cx, JSMutableHandleObject handle);
JSBool JS_CreateHandleId(JSContext *cx, jsid id, JSHandleId *phandle);
void JS_DestroyHandleId(JSContext *cx, JSHandleId handle);
#endif
/* JSClass operation signatures. */
/*
* Add, delete, or get a property named by id in obj. Note the jsid id
* type -- id may be a string (Unicode property identifier) or an int (element
* index). The *vp out parameter, on success, is the new property value after
* an add or get. After a successful delete, *vp is JSVAL_FALSE iff
* obj[id] can't be deleted (because it's permanent).
*/
typedef JSBool
(* JSPropertyOp)(JSContext *cx, JSHandleObject obj, JSHandleId id, JSMutableHandleValue vp);
/*
* Set a property named by id in obj, treating the assignment as strict
* mode code if strict is true. Note the jsid id type -- id may be a string
* (Unicode property identifier) or an int (element index). The *vp out
* parameter, on success, is the new property value after the
* set.
*/
typedef JSBool
(* JSStrictPropertyOp)(JSContext *cx, JSHandleObject obj, JSHandleId id, JSBool strict, JSMutableHandleValue vp);
/*
* This function type is used for callbacks that enumerate the properties of
* a JSObject. The behavior depends on the value of enum_op:
*
* JSENUMERATE_INIT
* A new, opaque iterator state should be allocated and stored in *statep.
* (You can use PRIVATE_TO_JSVAL() to tag the pointer to be stored).
*
* The number of properties that will be enumerated should be returned as
* an integer jsval in *idp, if idp is non-null, and provided the number of
* enumerable properties is known. If idp is non-null and the number of
* enumerable properties can't be computed in advance, *idp should be set
* to JSVAL_ZERO.
*
* JSENUMERATE_INIT_ALL
* Used identically to JSENUMERATE_INIT, but exposes all properties of the
* object regardless of enumerability.
*
* JSENUMERATE_NEXT
* A previously allocated opaque iterator state is passed in via statep.
* Return the next jsid in the iteration using *idp. The opaque iterator
* state pointed at by statep is destroyed and *statep is set to JSVAL_NULL
* if there are no properties left to enumerate.
*
* JSENUMERATE_DESTROY
* Destroy the opaque iterator state previously allocated in *statep by a
* call to this function when enum_op was JSENUMERATE_INIT or
* JSENUMERATE_INIT_ALL.
*
* The return value is used to indicate success, with a value of JS_FALSE
* indicating failure.
*/
typedef JSBool
(* JSNewEnumerateOp)(JSContext *cx, JSHandleObject obj, JSIterateOp enum_op,
JSMutableHandleValue statep, JSMutableHandleId idp);
/*
* The old-style JSClass.enumerate op should define all lazy properties not
* yet reflected in obj.
*/
typedef JSBool
(* JSEnumerateOp)(JSContext *cx, JSHandleObject obj);
/*
* Resolve a lazy property named by id in obj by defining it directly in obj.
* Lazy properties are those reflected from some peer native property space
* (e.g., the DOM attributes for a given node reflected as obj) on demand.
*
* JS looks for a property in an object, and if not found, tries to resolve
* the given id. If resolve succeeds, the engine looks again in case resolve
* defined obj[id]. If no such property exists directly in obj, the process
* is repeated with obj's prototype, etc.
*
* NB: JSNewResolveOp provides a cheaper way to resolve lazy properties.
*/
typedef JSBool
(* JSResolveOp)(JSContext *cx, JSHandleObject obj, JSHandleId id);
/*
* Like JSResolveOp, but flags provide contextual information as follows:
*
* JSRESOLVE_QUALIFIED a qualified property id: obj.id or obj[id], not id
* JSRESOLVE_ASSIGNING obj[id] is on the left-hand side of an assignment
* JSRESOLVE_DETECTING 'if (o.p)...' or similar detection opcode sequence
*
* The *objp out parameter, on success, should be null to indicate that id
* was not resolved; and non-null, referring to obj or one of its prototypes,
* if id was resolved. The hook may assume *objp is null on entry.
*
* This hook instead of JSResolveOp is called via the JSClass.resolve member
* if JSCLASS_NEW_RESOLVE is set in JSClass.flags.
*/
typedef JSBool
(* JSNewResolveOp)(JSContext *cx, JSHandleObject obj, JSHandleId id, unsigned flags,
JSMutableHandleObject objp);
/*
* Convert obj to the given type, returning true with the resulting value in
* *vp on success, and returning false on error or exception.
*/
typedef JSBool
(* JSConvertOp)(JSContext *cx, JSHandleObject obj, JSType type, JSMutableHandleValue vp);
/*
* Delegate typeof to an object so it can cloak a primitive or another object.
*/
typedef JSType
(* JSTypeOfOp)(JSContext *cx, JSHandleObject obj);
typedef struct JSFreeOp JSFreeOp;
struct JSFreeOp {
#ifndef __cplusplus
JSRuntime *runtime;
#else
private:
JSRuntime *runtime_;
protected:
JSFreeOp(JSRuntime *rt)
: runtime_(rt) { }
public:
JSRuntime *runtime() const {
return runtime_;
}
#endif
};
/*
* Finalize obj, which the garbage collector has determined to be unreachable
* from other live objects or from GC roots. Obviously, finalizers must never
* store a reference to obj.
*/
typedef void
(* JSFinalizeOp)(JSFreeOp *fop, JSObject *obj);
/*
* Finalizes external strings created by JS_NewExternalString.
*/
typedef struct JSStringFinalizer JSStringFinalizer;
struct JSStringFinalizer {
void (*finalize)(const JSStringFinalizer *fin, jschar *chars);
};
/*
* JSClass.checkAccess type: check whether obj[id] may be accessed per mode,
* returning false on error/exception, true on success with obj[id]'s last-got
* value in *vp, and its attributes in *attrsp. As for JSPropertyOp above, id
* is either a string or an int jsval.
*/
typedef JSBool
(* JSCheckAccessOp)(JSContext *cx, JSHandleObject obj, JSHandleId id, JSAccessMode mode,
JSMutableHandleValue vp);
/*
* Check whether v is an instance of obj. Return false on error or exception,
* true on success with JS_TRUE in *bp if v is an instance of obj, JS_FALSE in
* *bp otherwise.
*/
typedef JSBool
(* JSHasInstanceOp)(JSContext *cx, JSHandleObject obj, JSMutableHandleValue vp, JSBool *bp);
/*
* Function type for trace operation of the class called to enumerate all
* traceable things reachable from obj's private data structure. For each such
* thing, a trace implementation must call
*
* JS_CallTracer(trc, thing, kind);
*
* or one of its convenience macros as described in jsapi.h.
*
* JSTraceOp implementation can assume that no other threads mutates object
* state. It must not change state of the object or corresponding native
* structures. The only exception for this rule is the case when the embedding
* needs a tight integration with GC. In that case the embedding can check if
* the traversal is a part of the marking phase through calling
* JS_IsGCMarkingTracer and apply a special code like emptying caches or
* marking its native structures.
*/
typedef void
(* JSTraceOp)(JSTracer *trc, JSRawObject obj);
/*
* DEBUG only callback that JSTraceOp implementation can provide to return
* a string describing the reference traced with JS_CallTracer.
*/
typedef void
(* JSTraceNamePrinter)(JSTracer *trc, char *buf, size_t bufsize);
typedef JSBool
(* JSEqualityOp)(JSContext *cx, JSHandleObject obj, JSHandleValue v, JSBool *bp);
typedef JSRawObject
(* JSWeakmapKeyDelegateOp)(JSRawObject obj);
/*
* Typedef for native functions called by the JS VM.
*
* See jsapi.h, the JS_CALLEE, JS_THIS, etc. macros.
*/
typedef JSBool
(* JSNative)(JSContext *cx, unsigned argc, jsval *vp);
/* Callbacks and their arguments. */
typedef enum JSContextOp {
JSCONTEXT_NEW,
JSCONTEXT_DESTROY
} JSContextOp;
/*
* The possible values for contextOp when the runtime calls the callback are:
* JSCONTEXT_NEW JS_NewContext successfully created a new JSContext
* instance. The callback can initialize the instance as
* required. If the callback returns false, the instance
* will be destroyed and JS_NewContext returns null. In
* this case the callback is not called again.
* JSCONTEXT_DESTROY One of JS_DestroyContext* methods is called. The
* callback may perform its own cleanup and must always
* return true.
* Any other value For future compatibility the callback must do nothing
* and return true in this case.
*/
typedef JSBool
(* JSContextCallback)(JSContext *cx, unsigned contextOp);
typedef enum JSGCStatus {
JSGC_BEGIN,
JSGC_END
} JSGCStatus;
typedef void
(* JSGCCallback)(JSRuntime *rt, JSGCStatus status);
typedef enum JSFinalizeStatus {
JSFINALIZE_START,
JSFINALIZE_END
} JSFinalizeStatus;
typedef void
(* JSFinalizeCallback)(JSFreeOp *fop, JSFinalizeStatus status, JSBool isCompartment);
/*
* Generic trace operation that calls JS_CallTracer on each traceable thing
* stored in data.
*/
typedef void
(* JSTraceDataOp)(JSTracer *trc, void *data);
typedef JSBool
(* JSOperationCallback)(JSContext *cx);
typedef void
(* JSErrorReporter)(JSContext *cx, const char *message, JSErrorReport *report);
#ifdef MOZ_TRACE_JSCALLS
typedef void
(* JSFunctionCallback)(const JSFunction *fun,
const JSScript *scr,
const JSContext *cx,
int entering);
#endif
/*
* Possible exception types. These types are part of a JSErrorFormatString
* structure. They define which error to throw in case of a runtime error.
* JSEXN_NONE marks an unthrowable error.
*/
typedef enum JSExnType {
JSEXN_NONE = -1,
JSEXN_ERR,
JSEXN_INTERNALERR,
JSEXN_EVALERR,
JSEXN_RANGEERR,
JSEXN_REFERENCEERR,
JSEXN_SYNTAXERR,
JSEXN_TYPEERR,
JSEXN_URIERR,
JSEXN_LIMIT
} JSExnType;
typedef struct JSErrorFormatString {
/* The error format string (UTF-8 if js_CStringsAreUTF8). */
const char *format;
/* The number of arguments to expand in the formatted error message. */
uint16_t argCount;
/* One of the JSExnType constants above. */
int16_t exnType;
} JSErrorFormatString;
typedef const JSErrorFormatString *
(* JSErrorCallback)(void *userRef, const char *locale,
const unsigned errorNumber);
typedef JSBool
(* JSLocaleToUpperCase)(JSContext *cx, JSString *src, jsval *rval);
typedef JSBool
(* JSLocaleToLowerCase)(JSContext *cx, JSString *src, jsval *rval);
typedef JSBool
(* JSLocaleCompare)(JSContext *cx, JSString *src1, JSString *src2,
jsval *rval);
typedef JSBool
(* JSLocaleToUnicode)(JSContext *cx, const char *src, jsval *rval);
/*
* Security protocol types.
*/
typedef void
(* JSDestroyPrincipalsOp)(JSPrincipals *principals);
/*
* Used to check if a CSP instance wants to disable eval() and friends.
* See js_CheckCSPPermitsJSAction() in jsobj.
*/
typedef JSBool
(* JSCSPEvalChecker)(JSContext *cx);
/*
* Callback used to ask the embedding for the cross compartment wrapper handler
* that implements the desired prolicy for this kind of object in the
* destination compartment.
*/
typedef JSObject *
(* JSWrapObjectCallback)(JSContext *cx, JSObject *obj, JSObject *proto, JSObject *parent,
unsigned flags);
/*
* Callback used by the wrap hook to ask the embedding to prepare an object
* for wrapping in a context. This might include unwrapping other wrappers
* or even finding a more suitable object for the new compartment.
*/
typedef JSObject *
(* JSPreWrapCallback)(JSContext *cx, JSObject *scope, JSObject *obj, unsigned flags);
/*
* Callback used when wrapping determines that the underlying object is already
* in the compartment for which it is being wrapped. This allows consumers to
* maintain same-compartment wrapping invariants.
*
* |obj| is guaranteed to be same-compartment as |cx|, but it may (or may not)
* be a security or cross-compartment wrapper. This is an unfortunate contract,
* but is important for to avoid unnecessarily recomputing every cross-
* compartment wrapper that gets passed to wrap.
*/
typedef JSObject *
(* JSSameCompartmentWrapObjectCallback)(JSContext *cx, JSObject *obj);
typedef void
(* JSDestroyCompartmentCallback)(JSFreeOp *fop, JSCompartment *compartment);
typedef void
(* JSCompartmentNameCallback)(JSRuntime *rt, JSCompartment *compartment,
char *buf, size_t bufsize);
/*
* Read structured data from the reader r. This hook is used to read a value
* previously serialized by a call to the WriteStructuredCloneOp hook.
*
* tag and data are the pair of uint32_t values from the header. The callback
* may use the JS_Read* APIs to read any other relevant parts of the object
* from the reader r. closure is any value passed to the JS_ReadStructuredClone
* function. Return the new object on success, NULL on error/exception.
*/
typedef JSObject *(*ReadStructuredCloneOp)(JSContext *cx, JSStructuredCloneReader *r,
uint32_t tag, uint32_t data, void *closure);
/*
* Structured data serialization hook. The engine can write primitive values,
* Objects, Arrays, Dates, RegExps, TypedArrays, and ArrayBuffers. Any other
* type of object requires application support. This callback must first use
* the JS_WriteUint32Pair API to write an object header, passing a value
* greater than JS_SCTAG_USER to the tag parameter. Then it can use the
* JS_Write* APIs to write any other relevant parts of the value v to the
* writer w. closure is any value passed to the JS_WriteStructuredCLone function.
*
* Return true on success, false on error/exception.
*/
typedef JSBool (*WriteStructuredCloneOp)(JSContext *cx, JSStructuredCloneWriter *w,
JSObject *obj, void *closure);
/*
* This is called when JS_WriteStructuredClone is given an invalid transferable.
* To follow HTML5, the application must throw a DATA_CLONE_ERR DOMException
* with error set to one of the JS_SCERR_* values.
*/
typedef void (*StructuredCloneErrorOp)(JSContext *cx, uint32_t errorid);
/************************************************************************/
JS_BEGIN_EXTERN_C
/*
* Silence warning about returning JS::Value (aka jsval) from functions with C
* linkage. For C JSAPI clients, jsval will be jsval_layout, which should be
* ABI compatible.
*/
#ifdef _MSC_VER
# pragma warning(disable:4190)
#endif
/************************************************************************/
/*
* JS constants. For efficiency, prefer predicates (e.g., JSVAL_IS_NULL).
* N.B. These constants are initialized at startup.
*/
extern JS_PUBLIC_DATA(const jsval) JSVAL_NULL;
extern JS_PUBLIC_DATA(const jsval) JSVAL_ZERO;
extern JS_PUBLIC_DATA(const jsval) JSVAL_ONE;
extern JS_PUBLIC_DATA(const jsval) JSVAL_FALSE;
extern JS_PUBLIC_DATA(const jsval) JSVAL_TRUE;
extern JS_PUBLIC_DATA(const jsval) JSVAL_VOID;
/************************************************************************/
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_NULL(jsval v)
{
return JSVAL_IS_NULL_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_VOID(jsval v)
{
return JSVAL_IS_UNDEFINED_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_INT(jsval v)
{
return JSVAL_IS_INT32_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE int32_t
JSVAL_TO_INT(jsval v)
{
JS_ASSERT(JSVAL_IS_INT(v));
return JSVAL_TO_INT32_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE jsval
INT_TO_JSVAL(int32_t i)
{
return IMPL_TO_JSVAL(INT32_TO_JSVAL_IMPL(i));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_DOUBLE(jsval v)
{
return JSVAL_IS_DOUBLE_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE double
JSVAL_TO_DOUBLE(jsval v)
{
jsval_layout l;
JS_ASSERT(JSVAL_IS_DOUBLE(v));
l = JSVAL_TO_IMPL(v);
return l.asDouble;
}
static JS_ALWAYS_INLINE jsval
DOUBLE_TO_JSVAL(double d)
{
/* This is a manually inlined version of:
* d = JS_CANONICALIZE_NAN(d);
* return IMPL_TO_JSVAL(DOUBLE_TO_JSVAL_IMPL(d));
* because GCC from XCode 3.1.4 miscompiles the above code. */
jsval_layout l;
if (JS_UNLIKELY(d != d)) {
l.asBits = 0x7FF8000000000000LL;
} else {
l.asDouble = d;
}
return IMPL_TO_JSVAL(l);
}
static JS_ALWAYS_INLINE jsval
UINT_TO_JSVAL(uint32_t i)
{
if (i <= JSVAL_INT_MAX)
return INT_TO_JSVAL((int32_t)i);
return DOUBLE_TO_JSVAL((double)i);
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_NUMBER(jsval v)
{
return JSVAL_IS_NUMBER_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_STRING(jsval v)
{
return JSVAL_IS_STRING_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE JSString *
JSVAL_TO_STRING(jsval v)
{
JS_ASSERT(JSVAL_IS_STRING(v));
return JSVAL_TO_STRING_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE jsval
STRING_TO_JSVAL(JSString *str)
{
return IMPL_TO_JSVAL(STRING_TO_JSVAL_IMPL(str));
}
static JS_ALWAYS_INLINE JSObject *
JSVAL_TO_OBJECT(jsval v)
{
JS_ASSERT(JSVAL_IS_OBJECT_OR_NULL_IMPL(JSVAL_TO_IMPL(v)));
return JSVAL_TO_OBJECT_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE jsval
OBJECT_TO_JSVAL(JSObject *obj)
{
if (obj)
return IMPL_TO_JSVAL(OBJECT_TO_JSVAL_IMPL(obj));
return JSVAL_NULL;
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_BOOLEAN(jsval v)
{
return JSVAL_IS_BOOLEAN_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_TO_BOOLEAN(jsval v)
{
JS_ASSERT(JSVAL_IS_BOOLEAN(v));
return JSVAL_TO_BOOLEAN_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE jsval
BOOLEAN_TO_JSVAL(JSBool b)
{
return IMPL_TO_JSVAL(BOOLEAN_TO_JSVAL_IMPL(b));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_PRIMITIVE(jsval v)
{
return JSVAL_IS_PRIMITIVE_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_GCTHING(jsval v)
{
return JSVAL_IS_GCTHING_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE void *
JSVAL_TO_GCTHING(jsval v)
{
JS_ASSERT(JSVAL_IS_GCTHING(v));
return JSVAL_TO_GCTHING_IMPL(JSVAL_TO_IMPL(v));
}
/* To be GC-safe, privates are tagged as doubles. */
static JS_ALWAYS_INLINE jsval
PRIVATE_TO_JSVAL(void *ptr)
{
return IMPL_TO_JSVAL(PRIVATE_PTR_TO_JSVAL_IMPL(ptr));
}
static JS_ALWAYS_INLINE void *
JSVAL_TO_PRIVATE(jsval v)
{
JS_ASSERT(JSVAL_IS_DOUBLE(v));
return JSVAL_TO_PRIVATE_PTR_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE jsval
JS_NumberValue(double d)
{
int32_t i;
d = JS_CANONICALIZE_NAN(d);
if (MOZ_DOUBLE_IS_INT32(d, &i))
return INT_TO_JSVAL(i);
return DOUBLE_TO_JSVAL(d);
}
/************************************************************************/
/*
* A jsid is an identifier for a property or method of an object which is
* either a 31-bit signed integer, interned string or object. If XML is
* enabled, there is an additional singleton jsid value; see
* JS_DEFAULT_XML_NAMESPACE_ID below. Finally, there is an additional jsid
* value, JSID_VOID, which does not occur in JS scripts but may be used to
* indicate the absence of a valid jsid.
*
* A jsid is not implicitly convertible to or from a jsval; JS_ValueToId or
* JS_IdToValue must be used instead.
*/
#define JSID_TYPE_STRING 0x0
#define JSID_TYPE_INT 0x1
#define JSID_TYPE_VOID 0x2
#define JSID_TYPE_OBJECT 0x4
#define JSID_TYPE_DEFAULT_XML_NAMESPACE 0x6
#define JSID_TYPE_MASK 0x7
/*
* Avoid using canonical 'id' for jsid parameters since this is a magic word in
* Objective-C++ which, apparently, wants to be able to #include jsapi.h.
*/
#define id iden
static JS_ALWAYS_INLINE JSBool
JSID_IS_STRING(jsid id)
{
return (JSID_BITS(id) & JSID_TYPE_MASK) == 0;
}
static JS_ALWAYS_INLINE JSString *
JSID_TO_STRING(jsid id)
{
JS_ASSERT(JSID_IS_STRING(id));
return (JSString *)JSID_BITS(id);
}
static JS_ALWAYS_INLINE JSBool
JSID_IS_ZERO(jsid id)
{
return JSID_BITS(id) == 0;
}
JS_PUBLIC_API(JSBool)
JS_StringHasBeenInterned(JSContext *cx, JSString *str);
/*
* Only JSStrings that have been interned via the JSAPI can be turned into
* jsids by API clients.
*
* N.B. if a jsid is backed by a string which has not been interned, that
* string must be appropriately rooted to avoid being collected by the GC.
*/
JS_PUBLIC_API(jsid)
INTERNED_STRING_TO_JSID(JSContext *cx, JSString *str);
static JS_ALWAYS_INLINE JSBool
JSID_IS_INT(jsid id)
{
return !!(JSID_BITS(id) & JSID_TYPE_INT);
}
static JS_ALWAYS_INLINE int32_t
JSID_TO_INT(jsid id)
{
JS_ASSERT(JSID_IS_INT(id));
return ((uint32_t)JSID_BITS(id)) >> 1;
}
#define JSID_INT_MIN 0
#define JSID_INT_MAX INT32_MAX
static JS_ALWAYS_INLINE JSBool
INT_FITS_IN_JSID(int32_t i)
{
return i >= 0;
}
static JS_ALWAYS_INLINE jsid
INT_TO_JSID(int32_t i)
{
jsid id;
JS_ASSERT(INT_FITS_IN_JSID(i));
JSID_BITS(id) = ((i << 1) | JSID_TYPE_INT);
return id;
}
static JS_ALWAYS_INLINE JSBool
JSID_IS_OBJECT(jsid id)
{
return (JSID_BITS(id) & JSID_TYPE_MASK) == JSID_TYPE_OBJECT &&
(size_t)JSID_BITS(id) != JSID_TYPE_OBJECT;
}
static JS_ALWAYS_INLINE JSObject *
JSID_TO_OBJECT(jsid id)
{
JS_ASSERT(JSID_IS_OBJECT(id));
return (JSObject *)(JSID_BITS(id) & ~(size_t)JSID_TYPE_MASK);
}
static JS_ALWAYS_INLINE jsid
OBJECT_TO_JSID(JSRawObject obj)
{
jsid id;
JS_ASSERT(obj != NULL);
JS_ASSERT(((size_t)obj & JSID_TYPE_MASK) == 0);
JSID_BITS(id) = ((size_t)obj | JSID_TYPE_OBJECT);
return id;
}
static JS_ALWAYS_INLINE JSBool
JSID_IS_GCTHING(jsid id)
{
return JSID_IS_STRING(id) || JSID_IS_OBJECT(id);
}
static JS_ALWAYS_INLINE void *
JSID_TO_GCTHING(jsid id)
{
return (void *)(JSID_BITS(id) & ~(size_t)JSID_TYPE_MASK);
}
/*
* The magic XML namespace id is not a valid jsid. Global object classes in
* embeddings that enable JS_HAS_XML_SUPPORT (E4X) should handle this id.
*/
static JS_ALWAYS_INLINE JSBool
JSID_IS_DEFAULT_XML_NAMESPACE(jsid id)
{
JS_ASSERT_IF(((size_t)JSID_BITS(id) & JSID_TYPE_MASK) == JSID_TYPE_DEFAULT_XML_NAMESPACE,
JSID_BITS(id) == JSID_TYPE_DEFAULT_XML_NAMESPACE);
return ((size_t)JSID_BITS(id) == JSID_TYPE_DEFAULT_XML_NAMESPACE);
}
#ifdef JS_USE_JSID_STRUCT_TYPES
extern JS_PUBLIC_DATA(jsid) JS_DEFAULT_XML_NAMESPACE_ID;
#else
# define JS_DEFAULT_XML_NAMESPACE_ID ((jsid)JSID_TYPE_DEFAULT_XML_NAMESPACE)
#endif
/*
* A void jsid is not a valid id and only arises as an exceptional API return
* value, such as in JS_NextProperty. Embeddings must not pass JSID_VOID into
* JSAPI entry points expecting a jsid and do not need to handle JSID_VOID in
* hooks receiving a jsid except when explicitly noted in the API contract.
*/
static JS_ALWAYS_INLINE JSBool
JSID_IS_VOID(jsid id)
{
JS_ASSERT_IF(((size_t)JSID_BITS(id) & JSID_TYPE_MASK) == JSID_TYPE_VOID,
JSID_BITS(id) == JSID_TYPE_VOID);
return ((size_t)JSID_BITS(id) == JSID_TYPE_VOID);
}
static JS_ALWAYS_INLINE JSBool
JSID_IS_EMPTY(jsid id)
{
return ((size_t)JSID_BITS(id) == JSID_TYPE_OBJECT);
}
#undef id
#ifdef JS_USE_JSID_STRUCT_TYPES
extern JS_PUBLIC_DATA(jsid) JSID_VOID;
extern JS_PUBLIC_DATA(jsid) JSID_EMPTY;
#else
# define JSID_VOID ((jsid)JSID_TYPE_VOID)
# define JSID_EMPTY ((jsid)JSID_TYPE_OBJECT)
#endif
/*
* Returns true iff the given jsval is immune to GC and can be used across
* multiple JSRuntimes without requiring any conversion API.
*/
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_UNIVERSAL(jsval v)
{
return !JSVAL_IS_GCTHING(v);
}
#ifdef __cplusplus
namespace JS {
class AutoIdRooter : private AutoGCRooter
{
public:
explicit AutoIdRooter(JSContext *cx, jsid id = INT_TO_JSID(0)
JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, ID), id_(id)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
jsid id() {
return id_;
}
jsid * addr() {
return &id_;
}
friend void AutoGCRooter::trace(JSTracer *trc);
private:
jsid id_;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
} /* namespace JS */
#endif /* __cplusplus */
/************************************************************************/
/* Property attributes, set in JSPropertySpec and passed to API functions. */
#define JSPROP_ENUMERATE 0x01 /* property is visible to for/in loop */
#define JSPROP_READONLY 0x02 /* not settable: assignment is no-op.
This flag is only valid when neither
JSPROP_GETTER nor JSPROP_SETTER is
set. */
#define JSPROP_PERMANENT 0x04 /* property cannot be deleted */
#define JSPROP_GETTER 0x10 /* property holds getter function */
#define JSPROP_SETTER 0x20 /* property holds setter function */
#define JSPROP_SHARED 0x40 /* don't allocate a value slot for this
property; don't copy the property on
set of the same-named property in an
object that delegates to a prototype
containing this property */
#define JSPROP_INDEX 0x80 /* name is actually (int) index */
#define JSPROP_SHORTID 0x100 /* set in JS_DefineProperty attrs
if getters/setters use a shortid */
#define JSPROP_NATIVE_ACCESSORS 0x08 /* set in JSPropertyDescriptor.flags
if getters/setters are JSNatives */
/* Function flags, internal use only, returned by JS_GetFunctionFlags. */
#define JSFUN_LAMBDA 0x08 /* expressed, not declared, function */
#define JSFUN_SELF_HOSTED 0x20 /* function is self-hosted builtin and
must not be decompilable nor
constructible. */
#define JSFUN_SELF_HOSTED_CTOR 0x40 /* function is self-hosted builtin
constructor and must be constructible
but not decompilable. */
#define JSFUN_HEAVYWEIGHT 0x80 /* activation requires a Call object */
#define JSFUN_HEAVYWEIGHT_TEST(f) ((f) & JSFUN_HEAVYWEIGHT)
#define JSFUN_HAS_REST 0x0100 /* function has a rest (...) parameter */
#define JSFUN_CONSTRUCTOR 0x0200 /* native that can be called as a ctor
without creating a this object */
#define JSFUN_HAS_DEFAULTS 0x0400 /* function has at least one default
parameter */
#define JSFUN_FLAGS_MASK 0x07f8 /* overlay JSFUN_* attributes --
bits 12-15 are used internally to
flag interpreted functions */
#define JSFUN_STUB_GSOPS 0x1000 /* use JS_PropertyStub getter/setter
instead of defaulting to class gsops
for property holding function */
/*
* Re-use JSFUN_LAMBDA, which applies only to scripted functions, for use in
* JSFunctionSpec arrays that specify generic native prototype methods, i.e.,
* methods of a class prototype that are exposed as static methods taking an
* extra leading argument: the generic |this| parameter.
*
* If you set this flag in a JSFunctionSpec struct's flags initializer, then
* that struct must live at least as long as the native static method object
* created due to this flag by JS_DefineFunctions or JS_InitClass. Typically
* JSFunctionSpec structs are allocated in static arrays.
*/
#define JSFUN_GENERIC_NATIVE JSFUN_LAMBDA
/*
* The first call to JS_CallOnce by any thread in a process will call 'func'.
* Later calls to JS_CallOnce with the same JSCallOnceType object will be
* suppressed.
*
* Equivalently: each distinct JSCallOnceType object will allow one JS_CallOnce
* to invoke its JSInitCallback.
*/
extern JS_PUBLIC_API(JSBool)
JS_CallOnce(JSCallOnceType *once, JSInitCallback func);
/* Microseconds since the epoch, midnight, January 1, 1970 UTC. */
extern JS_PUBLIC_API(int64_t)
JS_Now(void);
/* Don't want to export data, so provide accessors for non-inline jsvals. */
extern JS_PUBLIC_API(jsval)
JS_GetNaNValue(JSContext *cx);
extern JS_PUBLIC_API(jsval)
JS_GetNegativeInfinityValue(JSContext *cx);
extern JS_PUBLIC_API(jsval)
JS_GetPositiveInfinityValue(JSContext *cx);
extern JS_PUBLIC_API(jsval)
JS_GetEmptyStringValue(JSContext *cx);
extern JS_PUBLIC_API(JSString *)
JS_GetEmptyString(JSRuntime *rt);
/*
* Format is a string of the following characters (spaces are insignificant),
* specifying the tabulated type conversions:
*
* b JSBool Boolean
* c uint16_t/jschar ECMA uint16_t, Unicode char
* i int32_t ECMA int32_t
* u uint32_t ECMA uint32_t
* j int32_t Rounded int32_t (coordinate)
* d double IEEE double
* I double Integral IEEE double
* S JSString * Unicode string, accessed by a JSString pointer
* W jschar * Unicode character vector, 0-terminated (W for wide)
* o JSObject * Object reference
* f JSFunction * Function private
* v jsval Argument value (no conversion)
* * N/A Skip this argument (no vararg)
* / N/A End of required arguments
*
* The variable argument list after format must consist of &b, &c, &s, e.g.,
* where those variables have the types given above. For the pointer types
* char *, JSString *, and JSObject *, the pointed-at memory returned belongs
* to the JS runtime, not to the calling native code. The runtime promises
* to keep this memory valid so long as argv refers to allocated stack space
* (so long as the native function is active).
*
* Fewer arguments than format specifies may be passed only if there is a /
* in format after the last required argument specifier and argc is at least
* the number of required arguments. More arguments than format specifies
* may be passed without error; it is up to the caller to deal with trailing
* unconverted arguments.
*/
extern JS_PUBLIC_API(JSBool)
JS_ConvertArguments(JSContext *cx, unsigned argc, jsval *argv, const char *format,
...);
#ifdef va_start
extern JS_PUBLIC_API(JSBool)
JS_ConvertArgumentsVA(JSContext *cx, unsigned argc, jsval *argv,
const char *format, va_list ap);
#endif
extern JS_PUBLIC_API(JSBool)
JS_ConvertValue(JSContext *cx, jsval v, JSType type, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_ValueToObject(JSContext *cx, jsval v, JSObject **objp);
extern JS_PUBLIC_API(JSFunction *)
JS_ValueToFunction(JSContext *cx, jsval v);
extern JS_PUBLIC_API(JSFunction *)
JS_ValueToConstructor(JSContext *cx, jsval v);
extern JS_PUBLIC_API(JSString *)
JS_ValueToString(JSContext *cx, jsval v);
extern JS_PUBLIC_API(JSString *)
JS_ValueToSource(JSContext *cx, jsval v);
extern JS_PUBLIC_API(JSBool)
JS_ValueToNumber(JSContext *cx, jsval v, double *dp);
#ifdef __cplusplus
namespace js {
/*
* DO NOT CALL THIS. Use JS::ToNumber
*/
extern JS_PUBLIC_API(bool)
ToNumberSlow(JSContext *cx, JS::Value v, double *dp);
/*
* DO NOT CALL THIS. Use JS::ToBoolean
*/
extern JS_PUBLIC_API(bool)
ToBooleanSlow(const JS::Value &v);
} /* namespace js */
namespace JS {
/* ES5 9.3 ToNumber. */
JS_ALWAYS_INLINE bool
ToNumber(JSContext *cx, const Value &v, double *out)
{
AssertCanGC();
AssertArgumentsAreSane(cx, v);
{
js::SkipRoot root(cx, &v);
js::MaybeCheckStackRoots(cx);
}
if (v.isNumber()) {
*out = v.toNumber();
return true;
}
return js::ToNumberSlow(cx, v, out);
}
JS_ALWAYS_INLINE bool
ToBoolean(const Value &v)
{
if (v.isBoolean())
return v.toBoolean();
if (v.isInt32())
return v.toInt32() != 0;
if (v.isObject())
return true;
if (v.isNullOrUndefined())
return false;
if (v.isDouble()) {
double d = v.toDouble();
return !MOZ_DOUBLE_IS_NaN(d) && d != 0;
}
/* Slow path. Handle Strings. */
return js::ToBooleanSlow(v);
}
} /* namespace JS */
#endif /* __cplusplus */
extern JS_PUBLIC_API(JSBool)
JS_DoubleIsInt32(double d, int32_t *ip);
extern JS_PUBLIC_API(int32_t)
JS_DoubleToInt32(double d);
extern JS_PUBLIC_API(uint32_t)
JS_DoubleToUint32(double d);
/*
* Convert a value to a number, then to an int32_t, according to the ECMA rules
* for ToInt32.
*/
extern JS_PUBLIC_API(JSBool)
JS_ValueToECMAInt32(JSContext *cx, jsval v, int32_t *ip);
/*
* Convert a value to a number, then to an int64_t, according to the WebIDL
* rules for ToInt64: http://dev.w3.org/2006/webapi/WebIDL/#es-long-long
*/
extern JS_PUBLIC_API(JSBool)
JS_ValueToInt64(JSContext *cx, jsval v, int64_t *ip);
/*
* Convert a value to a number, then to an uint64_t, according to the WebIDL
* rules for ToUint64: http://dev.w3.org/2006/webapi/WebIDL/#es-unsigned-long-long
*/
extern JS_PUBLIC_API(JSBool)
JS_ValueToUint64(JSContext *cx, jsval v, uint64_t *ip);
#ifdef __cplusplus
namespace js {
/* DO NOT CALL THIS. Use JS::ToInt16. */
extern JS_PUBLIC_API(bool)
ToUint16Slow(JSContext *cx, const JS::Value &v, uint16_t *out);
/* DO NOT CALL THIS. Use JS::ToInt32. */
extern JS_PUBLIC_API(bool)
ToInt32Slow(JSContext *cx, const JS::Value &v, int32_t *out);
/* DO NOT CALL THIS. Use JS::ToUint32. */
extern JS_PUBLIC_API(bool)
ToUint32Slow(JSContext *cx, const JS::Value &v, uint32_t *out);
/* DO NOT CALL THIS. Use JS::ToInt64. */
extern JS_PUBLIC_API(bool)
ToInt64Slow(JSContext *cx, const JS::Value &v, int64_t *out);
/* DO NOT CALL THIS. Use JS::ToUint64. */
extern JS_PUBLIC_API(bool)
ToUint64Slow(JSContext *cx, const JS::Value &v, uint64_t *out);
} /* namespace js */
namespace JS {
JS_ALWAYS_INLINE bool
ToUint16(JSContext *cx, const js::Value &v, uint16_t *out)
{
AssertCanGC();
AssertArgumentsAreSane(cx, v);
{
js::SkipRoot skip(cx, &v);
js::MaybeCheckStackRoots(cx);
}
if (v.isInt32()) {
*out = uint16_t(v.toInt32());
return true;
}
return js::ToUint16Slow(cx, v, out);
}
JS_ALWAYS_INLINE bool
ToInt32(JSContext *cx, const js::Value &v, int32_t *out)
{
AssertCanGC();
AssertArgumentsAreSane(cx, v);
{
js::SkipRoot root(cx, &v);
js::MaybeCheckStackRoots(cx);
}
if (v.isInt32()) {
*out = v.toInt32();
return true;
}
return js::ToInt32Slow(cx, v, out);
}
JS_ALWAYS_INLINE bool
ToUint32(JSContext *cx, const js::Value &v, uint32_t *out)
{
AssertCanGC();
AssertArgumentsAreSane(cx, v);
{
js::SkipRoot root(cx, &v);
js::MaybeCheckStackRoots(cx);
}
if (v.isInt32()) {
*out = uint32_t(v.toInt32());
return true;
}
return js::ToUint32Slow(cx, v, out);
}
JS_ALWAYS_INLINE bool
ToInt64(JSContext *cx, const js::Value &v, int64_t *out)
{
AssertCanGC();
AssertArgumentsAreSane(cx, v);
{
js::SkipRoot skip(cx, &v);
js::MaybeCheckStackRoots(cx);
}
if (v.isInt32()) {
*out = int64_t(v.toInt32());
return true;
}
return js::ToInt64Slow(cx, v, out);
}
JS_ALWAYS_INLINE bool
ToUint64(JSContext *cx, const js::Value &v, uint64_t *out)
{
AssertCanGC();
AssertArgumentsAreSane(cx, v);
{
js::SkipRoot skip(cx, &v);
js::MaybeCheckStackRoots(cx);
}
if (v.isInt32()) {
/* Account for sign extension of negatives into the longer 64bit space. */
*out = uint64_t(int64_t(v.toInt32()));
return true;
}
return js::ToUint64Slow(cx, v, out);
}
} /* namespace JS */
#endif /* __cplusplus */
/*
* Convert a value to a number, then to a uint32_t, according to the ECMA rules
* for ToUint32.
*/
extern JS_PUBLIC_API(JSBool)
JS_ValueToECMAUint32(JSContext *cx, jsval v, uint32_t *ip);
/*
* Convert a value to a number, then to an int32_t if it fits by rounding to
* nearest; but failing with an error report if the double is out of range
* or unordered.
*/
extern JS_PUBLIC_API(JSBool)
JS_ValueToInt32(JSContext *cx, jsval v, int32_t *ip);
/*
* ECMA ToUint16, for mapping a jsval to a Unicode point.
*/
extern JS_PUBLIC_API(JSBool)
JS_ValueToUint16(JSContext *cx, jsval v, uint16_t *ip);
extern JS_PUBLIC_API(JSBool)
JS_ValueToBoolean(JSContext *cx, jsval v, JSBool *bp);
extern JS_PUBLIC_API(JSType)
JS_TypeOfValue(JSContext *cx, jsval v);
extern JS_PUBLIC_API(const char *)
JS_GetTypeName(JSContext *cx, JSType type);
extern JS_PUBLIC_API(JSBool)
JS_StrictlyEqual(JSContext *cx, jsval v1, jsval v2, JSBool *equal);
extern JS_PUBLIC_API(JSBool)
JS_LooselyEqual(JSContext *cx, jsval v1, jsval v2, JSBool *equal);
extern JS_PUBLIC_API(JSBool)
JS_SameValue(JSContext *cx, jsval v1, jsval v2, JSBool *same);
/* True iff fun is the global eval function. */
extern JS_PUBLIC_API(JSBool)
JS_IsBuiltinEvalFunction(JSFunction *fun);
/* True iff fun is the Function constructor. */
extern JS_PUBLIC_API(JSBool)
JS_IsBuiltinFunctionConstructor(JSFunction *fun);
/************************************************************************/
/*
* Initialization, locking, contexts, and memory allocation.
*
* It is important that the first runtime and first context be created in a
* single-threaded fashion, otherwise the behavior of the library is undefined.
* See: http://developer.mozilla.org/en/docs/Category:JSAPI_Reference
*/
#define JS_NewRuntime JS_Init
#define JS_DestroyRuntime JS_Finish
#define JS_LockRuntime JS_Lock
#define JS_UnlockRuntime JS_Unlock
extern JS_PUBLIC_API(JSRuntime *)
JS_NewRuntime(uint32_t maxbytes);
/* Deprecated. */
#define JS_CommenceRuntimeShutDown(rt) ((void) 0)
extern JS_PUBLIC_API(void)
JS_DestroyRuntime(JSRuntime *rt);
extern JS_PUBLIC_API(void)
JS_ShutDown(void);
JS_PUBLIC_API(void *)
JS_GetRuntimePrivate(JSRuntime *rt);
extern JS_PUBLIC_API(JSRuntime *)
JS_GetRuntime(JSContext *cx);
JS_PUBLIC_API(void)
JS_SetRuntimePrivate(JSRuntime *rt, void *data);
extern JS_PUBLIC_API(void)
JS_BeginRequest(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_EndRequest(JSContext *cx);
extern JS_PUBLIC_API(JSBool)
JS_IsInRequest(JSRuntime *rt);
#ifdef __cplusplus
JS_END_EXTERN_C
namespace JS {
extern mozilla::ThreadLocal<JSRuntime *> TlsRuntime;
inline bool
IsPoisonedId(jsid iden)
{
if (JSID_IS_STRING(iden))
return JS::IsPoisonedPtr(JSID_TO_STRING(iden));
if (JSID_IS_OBJECT(iden))
return JS::IsPoisonedPtr(JSID_TO_OBJECT(iden));
return false;
}
} /* namespace JS */
namespace js {
template <> struct RootMethods<jsid>
{
static jsid initial() { return JSID_VOID; }
static ThingRootKind kind() { return THING_ROOT_ID; }
static bool poisoned(jsid id) { return IsPoisonedId(id); }
};
} /* namespace js */
class JSAutoRequest {
public:
JSAutoRequest(JSContext *cx JS_GUARD_OBJECT_NOTIFIER_PARAM)
: mContext(cx) {
JS_GUARD_OBJECT_NOTIFIER_INIT;
JS_BeginRequest(mContext);
}
~JSAutoRequest() {
JS_EndRequest(mContext);
}
protected:
JSContext *mContext;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
#if 0
private:
static void *operator new(size_t) CPP_THROW_NEW { return 0; };
static void operator delete(void *, size_t) { };
#endif
};
class JSAutoCheckRequest {
public:
JSAutoCheckRequest(JSContext *cx JS_GUARD_OBJECT_NOTIFIER_PARAM) {
#if defined JS_THREADSAFE && defined DEBUG
mContext = cx;
JS_ASSERT(JS_IsInRequest(JS_GetRuntime(cx)));
#endif
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
~JSAutoCheckRequest() {
#if defined JS_THREADSAFE && defined DEBUG
JS_ASSERT(JS_IsInRequest(JS_GetRuntime(mContext)));
#endif
}
private:
#if defined JS_THREADSAFE && defined DEBUG
JSContext *mContext;
#endif
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
};
JS_BEGIN_EXTERN_C
#endif
extern JS_PUBLIC_API(JSContextCallback)
JS_SetContextCallback(JSRuntime *rt, JSContextCallback cxCallback);
extern JS_PUBLIC_API(JSContext *)
JS_NewContext(JSRuntime *rt, size_t stackChunkSize);
extern JS_PUBLIC_API(void)
JS_DestroyContext(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_DestroyContextNoGC(JSContext *cx);
extern JS_PUBLIC_API(void *)
JS_GetContextPrivate(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_SetContextPrivate(JSContext *cx, void *data);
extern JS_PUBLIC_API(void *)
JS_GetSecondContextPrivate(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_SetSecondContextPrivate(JSContext *cx, void *data);
extern JS_PUBLIC_API(JSRuntime *)
JS_GetRuntime(JSContext *cx);
extern JS_PUBLIC_API(JSContext *)
JS_ContextIterator(JSRuntime *rt, JSContext **iterp);
extern JS_PUBLIC_API(JSVersion)
JS_GetVersion(JSContext *cx);
extern JS_PUBLIC_API(JSVersion)
JS_SetVersion(JSContext *cx, JSVersion version);
extern JS_PUBLIC_API(const char *)
JS_VersionToString(JSVersion version);
extern JS_PUBLIC_API(JSVersion)
JS_StringToVersion(const char *string);
/*
* JS options are orthogonal to version, and may be freely composed with one
* another as well as with version.
*
* JSOPTION_VAROBJFIX is recommended -- see the comments associated with the
* prototypes for JS_ExecuteScript, JS_EvaluateScript, etc.
*/
#define JSOPTION_STRICT JS_BIT(0) /* warn on dubious practice */
#define JSOPTION_WERROR JS_BIT(1) /* convert warning to error */
#define JSOPTION_VAROBJFIX JS_BIT(2) /* make JS_EvaluateScript use
the last object on its 'obj'
param's scope chain as the
ECMA 'variables object' */
#define JSOPTION_PRIVATE_IS_NSISUPPORTS \
JS_BIT(3) /* context private data points
to an nsISupports subclass */
#define JSOPTION_COMPILE_N_GO JS_BIT(4) /* caller of JS_Compile*Script
promises to execute compiled
script once only; enables
compile-time scope chain
resolution of consts. */
#define JSOPTION_ATLINE JS_BIT(5) /* //@line number ["filename"]
option supported for the
XUL preprocessor and kindred
beasts. */
#define JSOPTION_ALLOW_XML JS_BIT(6) /* enable E4X syntax (deprecated)
and define the E4X-related
globals: XML, XMLList,
Namespace, etc. */
#define JSOPTION_MOAR_XML JS_BIT(7) /* enable E4X even in versions
that don't normally get it;
parse <!-- --> as a token,
not backward compatible with
the comment-hiding hack used
in HTML script tags. */
#define JSOPTION_DONT_REPORT_UNCAUGHT \
JS_BIT(8) /* When returning from the
outermost API call, prevent
uncaught exceptions from
being converted to error
reports */
#define JSOPTION_RELIMIT JS_BIT(9) /* Throw exception on any
regular expression which
backtracks more than n^3
times, where n is length
of the input string */
/* JS_BIT(10) is currently unused. */
/* JS_BIT(11) is currently unused. */
#define JSOPTION_NO_SCRIPT_RVAL JS_BIT(12) /* A promise to the compiler
that a null rval out-param
will be passed to each call
to JS_ExecuteScript. */
#define JSOPTION_UNROOTED_GLOBAL JS_BIT(13) /* The GC will not root the
contexts' global objects
(see JS_GetGlobalObject),
leaving that up to the
embedding. */
#define JSOPTION_METHODJIT JS_BIT(14) /* Whole-method JIT. */
/* JS_BIT(15) is currently unused. */
#define JSOPTION_METHODJIT_ALWAYS \
JS_BIT(16) /* Always whole-method JIT,
don't tune at run-time. */
#define JSOPTION_PCCOUNT JS_BIT(17) /* Collect per-op execution counts */
#define JSOPTION_TYPE_INFERENCE JS_BIT(18) /* Perform type inference. */
#define JSOPTION_STRICT_MODE JS_BIT(19) /* Provides a way to force
strict mode for all code
without requiring
"use strict" annotations. */
#define JSOPTION_ION JS_BIT(20) /* IonMonkey */
/* Options which reflect compile-time properties of scripts. */
#define JSCOMPILEOPTION_MASK (JSOPTION_ALLOW_XML | JSOPTION_MOAR_XML)
#define JSRUNOPTION_MASK (JS_BITMASK(21) & ~JSCOMPILEOPTION_MASK)
#define JSALLOPTION_MASK (JSCOMPILEOPTION_MASK | JSRUNOPTION_MASK)
extern JS_PUBLIC_API(uint32_t)
JS_GetOptions(JSContext *cx);
extern JS_PUBLIC_API(uint32_t)
JS_SetOptions(JSContext *cx, uint32_t options);
extern JS_PUBLIC_API(uint32_t)
JS_ToggleOptions(JSContext *cx, uint32_t options);
extern JS_PUBLIC_API(void)
JS_SetJitHardening(JSRuntime *rt, JSBool enabled);
extern JS_PUBLIC_API(const char *)
JS_GetImplementationVersion(void);
extern JS_PUBLIC_API(void)
JS_SetDestroyCompartmentCallback(JSRuntime *rt, JSDestroyCompartmentCallback callback);
extern JS_PUBLIC_API(void)
JS_SetCompartmentNameCallback(JSRuntime *rt, JSCompartmentNameCallback callback);
extern JS_PUBLIC_API(JSWrapObjectCallback)
JS_SetWrapObjectCallbacks(JSRuntime *rt,
JSWrapObjectCallback callback,
JSSameCompartmentWrapObjectCallback sccallback,
JSPreWrapCallback precallback);
extern JS_PUBLIC_API(void)
JS_SetCompartmentPrivate(JSCompartment *compartment, void *data);
extern JS_PUBLIC_API(void *)
JS_GetCompartmentPrivate(JSCompartment *compartment);
extern JS_PUBLIC_API(JSBool)
JS_WrapObject(JSContext *cx, JSObject **objp);
extern JS_PUBLIC_API(JSBool)
JS_WrapValue(JSContext *cx, jsval *vp);
extern JS_PUBLIC_API(JSObject *)
JS_TransplantObject(JSContext *cx, JSObject *origobj, JSObject *target);
extern JS_FRIEND_API(JSObject *)
js_TransplantObjectWithWrapper(JSContext *cx,
JSObject *origobj,
JSObject *origwrapper,
JSObject *targetobj,
JSObject *targetwrapper);
extern JS_PUBLIC_API(JSBool)
JS_RefreshCrossCompartmentWrappers(JSContext *cx, JSObject *ob);
/*
* At any time, a JSContext has a current (possibly-NULL) compartment.
* Compartments are described in:
*
* developer.mozilla.org/en-US/docs/SpiderMonkey/SpiderMonkey_compartments
*
* The current compartment of a context may be changed. The preferred way to do
* this is with JSAutoCompartment:
*
* void foo(JSContext *cx, JSObject *obj) {
* // in some compartment 'c'
* {
* JSAutoCompartment ac(cx, obj); // constructor enters
* // in the compartment of 'obj'
* } // destructor leaves
* // back in compartment 'c'
* }
*
* For more complicated uses that don't neatly fit in a C++ stack frame, the
* compartment can entered and left using separate function calls:
*
* void foo(JSContext *cx, JSObject *obj) {
* // in 'oldCompartment'
* JSCompartment *oldCompartment = JS_EnterCompartment(cx, obj);
* // in the compartment of 'obj'
* JS_LeaveCompartment(cx, oldCompartment);
* // back in 'oldCompartment'
* }
*
* Note: these calls must still execute in a LIFO manner w.r.t all other
* enter/leave calls on the context. Furthermore, only the return value of a
* JS_EnterCompartment call may be passed as the 'oldCompartment' argument of
* the corresponding JS_LeaveCompartment call.
*/
#ifdef __cplusplus
JS_END_EXTERN_C
class JS_PUBLIC_API(JSAutoCompartment)
{
JSContext *cx_;
JSCompartment *oldCompartment_;
public:
JSAutoCompartment(JSContext *cx, JSRawObject target);
JSAutoCompartment(JSContext *cx, JSScript *target);
JSAutoCompartment(JSContext *cx, JSStackFrame *target);
JSAutoCompartment(JSContext *cx, JSString *target);
~JSAutoCompartment();
};
JS_BEGIN_EXTERN_C
#endif
/* NB: This API is infallible; a NULL return value does not indicate error. */
extern JS_PUBLIC_API(JSCompartment *)
JS_EnterCompartment(JSContext *cx, JSRawObject target);
extern JS_PUBLIC_API(void)
JS_LeaveCompartment(JSContext *cx, JSCompartment *oldCompartment);
typedef void (*JSIterateCompartmentCallback)(JSRuntime *rt, void *data, JSCompartment *compartment);
/*
* This function calls |compartmentCallback| on every compartment. Beware that
* there is no guarantee that the compartment will survive after the callback
* returns.
*/
extern JS_PUBLIC_API(void)
JS_IterateCompartments(JSRuntime *rt, void *data,
JSIterateCompartmentCallback compartmentCallback);
extern JS_PUBLIC_API(JSObject *)
JS_GetGlobalObject(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_SetGlobalObject(JSContext *cx, JSRawObject obj);
/*
* Initialize standard JS class constructors, prototypes, and any top-level
* functions and constants associated with the standard classes (e.g. isNaN
* for Number).
*
* NB: This sets cx's global object to obj if it was null.
*/
extern JS_PUBLIC_API(JSBool)
JS_InitStandardClasses(JSContext *cx, JSObject *obj);
/*
* Resolve id, which must contain either a string or an int, to a standard
* class name in obj if possible, defining the class's constructor and/or
* prototype and storing true in *resolved. If id does not name a standard
* class or a top-level property induced by initializing a standard class,
* store false in *resolved and just return true. Return false on error,
* as usual for JSBool result-typed API entry points.
*
* This API can be called directly from a global object class's resolve op,
* to define standard classes lazily. The class's enumerate op should call
* JS_EnumerateStandardClasses(cx, obj), to define eagerly during for..in
* loops any classes not yet resolved lazily.
*/
extern JS_PUBLIC_API(JSBool)
JS_ResolveStandardClass(JSContext *cx, JSObject *obj, jsid id,
JSBool *resolved);
extern JS_PUBLIC_API(JSBool)
JS_EnumerateStandardClasses(JSContext *cx, JSObject *obj);
/*
* Enumerate any already-resolved standard class ids into ida, or into a new
* JSIdArray if ida is null. Return the augmented array on success, null on
* failure with ida (if it was non-null on entry) destroyed.
*/
extern JS_PUBLIC_API(JSIdArray *)
JS_EnumerateResolvedStandardClasses(JSContext *cx, JSObject *obj,
JSIdArray *ida);
extern JS_PUBLIC_API(JSBool)
JS_GetClassObject(JSContext *cx, JSRawObject obj, JSProtoKey key, JSObject **objp);
extern JS_PUBLIC_API(JSBool)
JS_GetClassPrototype(JSContext *cx, JSProtoKey key, JSObject **objp);
extern JS_PUBLIC_API(JSProtoKey)
JS_IdentifyClassPrototype(JSContext *cx, JSObject *obj);
/*
* Returns the original value of |Function.prototype| from the global object in
* which |forObj| was created.
*/
extern JS_PUBLIC_API(JSObject *)
JS_GetFunctionPrototype(JSContext *cx, JSRawObject forObj);
/*
* Returns the original value of |Object.prototype| from the global object in
* which |forObj| was created.
*/
extern JS_PUBLIC_API(JSObject *)
JS_GetObjectPrototype(JSContext *cx, JSRawObject forObj);
extern JS_PUBLIC_API(JSObject *)
JS_GetGlobalForObject(JSContext *cx, JSRawObject obj);
extern JS_PUBLIC_API(JSBool)
JS_IsGlobalObject(JSRawObject obj);
/*
* May return NULL, if |c| never had a global (e.g. the atoms compartment), or
* if |c|'s global has been collected.
*/
extern JS_PUBLIC_API(JSObject *)
JS_GetGlobalForCompartmentOrNull(JSContext *cx, JSCompartment *c);
extern JS_PUBLIC_API(JSObject *)
JS_GetGlobalForScopeChain(JSContext *cx);
extern JS_PUBLIC_API(JSObject *)
JS_GetScriptedGlobal(JSContext *cx);
/*
* Initialize the 'Reflect' object on a global object.
*/
extern JS_PUBLIC_API(JSObject *)
JS_InitReflect(JSContext *cx, JSObject *global);
#ifdef JS_HAS_CTYPES
/*
* Initialize the 'ctypes' object on a global variable 'obj'. The 'ctypes'
* object will be sealed.
*/
extern JS_PUBLIC_API(JSBool)
JS_InitCTypesClass(JSContext *cx, JSObject *global);
/*
* Convert a unicode string 'source' of length 'slen' to the platform native
* charset, returning a null-terminated string allocated with JS_malloc. On
* failure, this function should report an error.
*/
typedef char *
(* JSCTypesUnicodeToNativeFun)(JSContext *cx, const jschar *source, size_t slen);
/*
* Set of function pointers that ctypes can use for various internal functions.
* See JS_SetCTypesCallbacks below. Providing NULL for a function is safe,
* and will result in the applicable ctypes functionality not being available.
*/
struct JSCTypesCallbacks {
JSCTypesUnicodeToNativeFun unicodeToNative;
};
typedef struct JSCTypesCallbacks JSCTypesCallbacks;
/*
* Set the callbacks on the provided 'ctypesObj' object. 'callbacks' should be a
* pointer to static data that exists for the lifetime of 'ctypesObj', but it
* may safely be altered after calling this function and without having
* to call this function again.
*/
extern JS_PUBLIC_API(void)
JS_SetCTypesCallbacks(JSRawObject ctypesObj, JSCTypesCallbacks *callbacks);
#endif
typedef JSBool
(* JSEnumerateDiagnosticMemoryCallback)(void *ptr, size_t length);
/*
* Enumerate memory regions that contain diagnostic information
* intended to be included in crash report minidumps.
*/
extern JS_PUBLIC_API(void)
JS_EnumerateDiagnosticMemoryRegions(JSEnumerateDiagnosticMemoryCallback callback);
/*
* Macros to hide interpreter stack layout details from a JSFastNative using
* its jsval *vp parameter. The stack layout underlying invocation can't change
* without breaking source and binary compatibility (argv[-2] is well-known to
* be the callee jsval, and argv[-1] is as well known to be |this|).
*
* Note well: However, argv[-1] may be JSVAL_NULL where with slow natives it
* is the global object, so embeddings implementing fast natives *must* call
* JS_THIS or JS_THIS_OBJECT and test for failure indicated by a null return,
* which should propagate as a false return from native functions and hooks.
*
* To reduce boilerplace checks, JS_InstanceOf and JS_GetInstancePrivate now
* handle a null obj parameter by returning false (throwing a TypeError if
* given non-null argv), so most native functions that type-check their |this|
* parameter need not add null checking.
*
* NB: there is an anti-dependency between JS_CALLEE and JS_SET_RVAL: native
* methods that may inspect their callee must defer setting their return value
* until after any such possible inspection. Otherwise the return value will be
* inspected instead of the callee function object.
*
* WARNING: These are not (yet) mandatory macros, but new code outside of the
* engine should use them. In the Mozilla 2.0 milestone their definitions may
* change incompatibly.
*
* N.B. constructors must not use JS_THIS, as no 'this' object has been created.
*/
#define JS_CALLEE(cx,vp) ((vp)[0])
#define JS_THIS(cx,vp) JS_ComputeThis(cx, vp)
#define JS_THIS_OBJECT(cx,vp) (JSVAL_TO_OBJECT(JS_THIS(cx,vp)))
#define JS_ARGV(cx,vp) ((vp) + 2)
#define JS_RVAL(cx,vp) (*(vp))
#define JS_SET_RVAL(cx,vp,v) (*(vp) = (v))
extern JS_PUBLIC_API(jsval)
JS_ComputeThis(JSContext *cx, jsval *vp);
#ifdef __cplusplus
#undef JS_THIS
static inline jsval
JS_THIS(JSContext *cx, jsval *vp)
{
return JSVAL_IS_PRIMITIVE(vp[1]) ? JS_ComputeThis(cx, vp) : vp[1];
}
#endif
/*
* |this| is passed to functions in ES5 without change. Functions themselves
* do any post-processing they desire to box |this|, compute the global object,
* &c. Use this macro to retrieve a function's unboxed |this| value.
*
* This macro must not be used in conjunction with JS_THIS or JS_THIS_OBJECT,
* or vice versa. Either use the provided this value with this macro, or
* compute the boxed this value using those.
*
* N.B. constructors must not use JS_THIS_VALUE, as no 'this' object has been
* created.
*/
#define JS_THIS_VALUE(cx,vp) ((vp)[1])
extern JS_PUBLIC_API(void)
JS_MallocInCompartment(JSCompartment *comp, size_t nbytes);
extern JS_PUBLIC_API(void)
JS_FreeInCompartment(JSCompartment *comp, size_t nbytes);
extern JS_PUBLIC_API(void *)
JS_malloc(JSContext *cx, size_t nbytes);
extern JS_PUBLIC_API(void *)
JS_realloc(JSContext *cx, void *p, size_t nbytes);
/*
* A wrapper for js_free(p) that may delay js_free(p) invocation as a
* performance optimization.
* cx may be NULL.
*/
extern JS_PUBLIC_API(void)
JS_free(JSContext *cx, void *p);
/*
* A wrapper for js_free(p) that may delay js_free(p) invocation as a
* performance optimization as specified by the given JSFreeOp instance.
*/
extern JS_PUBLIC_API(void)
JS_freeop(JSFreeOp *fop, void *p);
extern JS_PUBLIC_API(JSFreeOp *)
JS_GetDefaultFreeOp(JSRuntime *rt);
extern JS_PUBLIC_API(void)
JS_updateMallocCounter(JSContext *cx, size_t nbytes);
extern JS_PUBLIC_API(char *)
JS_strdup(JSContext *cx, const char *s);
/*
* A GC root is a pointer to a jsval, JSObject * or JSString * that itself
* points into the GC heap. JS_AddValueRoot takes a pointer to a jsval and
* JS_AddGCThingRoot takes a pointer to a JSObject * or JString *.
*
* Note that, since JS_Add*Root stores the address of a variable (of type
* jsval, JSString *, or JSObject *), that variable must live until
* JS_Remove*Root is called to remove that variable. For example, after:
*
* void some_function() {
* jsval v;
* JS_AddNamedRootedValue(cx, &v, "name");
*
* the caller must perform
*
* JS_RemoveRootedValue(cx, &v);
*
* before some_function() returns.
*
* Also, use JS_AddNamed*Root(cx, &structPtr->memberObj, "structPtr->memberObj")
* in preference to JS_Add*Root(cx, &structPtr->memberObj), in order to identify
* roots by their source callsites. This way, you can find the callsite while
* debugging if you should fail to do JS_Remove*Root(cx, &structPtr->memberObj)
* before freeing structPtr's memory.
*/
extern JS_PUBLIC_API(JSBool)
JS_AddValueRoot(JSContext *cx, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_AddStringRoot(JSContext *cx, JSString **rp);
extern JS_PUBLIC_API(JSBool)
JS_AddObjectRoot(JSContext *cx, JSObject **rp);
extern JS_PUBLIC_API(JSBool)
JS_AddGCThingRoot(JSContext *cx, void **rp);
#ifdef NAME_ALL_GC_ROOTS
#define JS_DEFINE_TO_TOKEN(def) #def
#define JS_DEFINE_TO_STRING(def) JS_DEFINE_TO_TOKEN(def)
#define JS_AddValueRoot(cx,vp) JS_AddNamedValueRoot((cx), (vp), (__FILE__ ":" JS_TOKEN_TO_STRING(__LINE__))
#define JS_AddStringRoot(cx,rp) JS_AddNamedStringRoot((cx), (rp), (__FILE__ ":" JS_TOKEN_TO_STRING(__LINE__))
#define JS_AddObjectRoot(cx,rp) JS_AddNamedObjectRoot((cx), (rp), (__FILE__ ":" JS_TOKEN_TO_STRING(__LINE__))
#define JS_AddGCThingRoot(cx,rp) JS_AddNamedGCThingRoot((cx), (rp), (__FILE__ ":" JS_TOKEN_TO_STRING(__LINE__))
#endif
extern JS_PUBLIC_API(JSBool)
JS_AddNamedValueRoot(JSContext *cx, jsval *vp, const char *name);
extern JS_PUBLIC_API(JSBool)
JS_AddNamedStringRoot(JSContext *cx, JSString **rp, const char *name);
extern JS_PUBLIC_API(JSBool)
JS_AddNamedObjectRoot(JSContext *cx, JSObject **rp, const char *name);
extern JS_PUBLIC_API(JSBool)
JS_AddNamedScriptRoot(JSContext *cx, JSScript **rp, const char *name);
extern JS_PUBLIC_API(JSBool)
JS_AddNamedGCThingRoot(JSContext *cx, void **rp, const char *name);
extern JS_PUBLIC_API(void)
JS_RemoveValueRoot(JSContext *cx, jsval *vp);
extern JS_PUBLIC_API(void)
JS_RemoveStringRoot(JSContext *cx, JSString **rp);
extern JS_PUBLIC_API(void)
JS_RemoveObjectRoot(JSContext *cx, JSObject **rp);
extern JS_PUBLIC_API(void)
JS_RemoveScriptRoot(JSContext *cx, JSScript **rp);
extern JS_PUBLIC_API(void)
JS_RemoveGCThingRoot(JSContext *cx, void **rp);
extern JS_PUBLIC_API(void)
JS_RemoveValueRootRT(JSRuntime *rt, jsval *vp);
extern JS_PUBLIC_API(void)
JS_RemoveStringRootRT(JSRuntime *rt, JSString **rp);
extern JS_PUBLIC_API(void)
JS_RemoveObjectRootRT(JSRuntime *rt, JSObject **rp);
extern JS_PUBLIC_API(void)
JS_RemoveScriptRootRT(JSRuntime *rt, JSScript **rp);
/* TODO: remove these APIs */
extern JS_FRIEND_API(JSBool)
js_AddRootRT(JSRuntime *rt, jsval *vp, const char *name);
extern JS_FRIEND_API(JSBool)
js_AddGCThingRootRT(JSRuntime *rt, void **rp, const char *name);
extern JS_FRIEND_API(void)
js_RemoveRoot(JSRuntime *rt, void *rp);
/*
* C-compatible version of the Anchor class. It should be called after the last
* use of the variable it protects.
*/
extern JS_NEVER_INLINE JS_PUBLIC_API(void)
JS_AnchorPtr(void *p);
/*
* This symbol may be used by embedders to detect the change from the old
* JS_AddRoot(JSContext *, void *) APIs to the new ones above.
*/
#define JS_TYPED_ROOTING_API
/* Obsolete rooting APIs. */
#define JS_EnterLocalRootScope(cx) (JS_TRUE)
#define JS_LeaveLocalRootScope(cx) ((void) 0)
#define JS_LeaveLocalRootScopeWithResult(cx, rval) ((void) 0)
#define JS_ForgetLocalRoot(cx, thing) ((void) 0)
typedef enum JSGCRootType {
JS_GC_ROOT_VALUE_PTR,
JS_GC_ROOT_GCTHING_PTR
} JSGCRootType;
#ifdef DEBUG
extern JS_PUBLIC_API(void)
JS_DumpNamedRoots(JSRuntime *rt,
void (*dump)(const char *name, void *rp, JSGCRootType type, void *data),
void *data);
#endif
/*
* Call JS_MapGCRoots to map the GC's roots table using map(rp, name, data).
* The root is pointed at by rp; if the root is unnamed, name is null; data is
* supplied from the third parameter to JS_MapGCRoots.
*
* The map function should return JS_MAP_GCROOT_REMOVE to cause the currently
* enumerated root to be removed. To stop enumeration, set JS_MAP_GCROOT_STOP
* in the return value. To keep on mapping, return JS_MAP_GCROOT_NEXT. These
* constants are flags; you can OR them together.
*
* The JSGCRootType parameter indicates whether rp is a pointer to a Value
* (which is obtained by '(Value *)rp') or a pointer to a GC-thing pointer
* (which is obtained by '(void **)rp').
*
* JS_MapGCRoots returns the count of roots that were successfully mapped.
*/
#define JS_MAP_GCROOT_NEXT 0 /* continue mapping entries */
#define JS_MAP_GCROOT_STOP 1 /* stop mapping entries */
#define JS_MAP_GCROOT_REMOVE 2 /* remove and free the current entry */
typedef int
(* JSGCRootMapFun)(void *rp, JSGCRootType type, const char *name, void *data);
extern JS_PUBLIC_API(uint32_t)
JS_MapGCRoots(JSRuntime *rt, JSGCRootMapFun map, void *data);
extern JS_PUBLIC_API(JSBool)
JS_LockGCThing(JSContext *cx, void *thing);
extern JS_PUBLIC_API(JSBool)
JS_LockGCThingRT(JSRuntime *rt, void *thing);
extern JS_PUBLIC_API(JSBool)
JS_UnlockGCThing(JSContext *cx, void *thing);
extern JS_PUBLIC_API(JSBool)
JS_UnlockGCThingRT(JSRuntime *rt, void *thing);
/*
* Register externally maintained GC roots.
*
* traceOp: the trace operation. For each root the implementation should call
* JS_CallTracer whenever the root contains a traceable thing.
* data: the data argument to pass to each invocation of traceOp.
*/
extern JS_PUBLIC_API(void)
JS_SetExtraGCRootsTracer(JSRuntime *rt, JSTraceDataOp traceOp, void *data);
/*
* JS_CallTracer API and related macros for implementors of JSTraceOp, to
* enumerate all references to traceable things reachable via a property or
* other strong ref identified for debugging purposes by name or index or
* a naming callback.
*
* See the JSTraceOp typedef.
*/
/*
* Use the following macros to check if a particular jsval is a traceable
* thing and to extract the thing and its kind to pass to JS_CallTracer.
*/
static JS_ALWAYS_INLINE JSBool
JSVAL_IS_TRACEABLE(jsval v)
{
return JSVAL_IS_TRACEABLE_IMPL(JSVAL_TO_IMPL(v));
}
static JS_ALWAYS_INLINE void *
JSVAL_TO_TRACEABLE(jsval v)
{
return JSVAL_TO_GCTHING(v);
}
static JS_ALWAYS_INLINE JSGCTraceKind
JSVAL_TRACE_KIND(jsval v)
{
JS_ASSERT(JSVAL_IS_GCTHING(v));
return (JSGCTraceKind) JSVAL_TRACE_KIND_IMPL(JSVAL_TO_IMPL(v));
}
/*
* Tracer callback, called for each traceable thing directly referenced by a
* particular object or runtime structure. It is the callback responsibility
* to ensure the traversal of the full object graph via calling eventually
* JS_TraceChildren on the passed thing. In this case the callback must be
* prepared to deal with cycles in the traversal graph.
*
* kind argument is one of JSTRACE_OBJECT, JSTRACE_STRING or a tag denoting
* internal implementation-specific traversal kind. In the latter case the only
* operations on thing that the callback can do is to call JS_TraceChildren or
* JS_GetTraceThingInfo.
*
* If eagerlyTraceWeakMaps is true, when we trace a WeakMap visit all
* of its mappings. This should be used in cases where the tracer
* wants to use the existing liveness of entries.
*/
typedef void
(* JSTraceCallback)(JSTracer *trc, void **thingp, JSGCTraceKind kind);
struct JSTracer {
JSRuntime *runtime;
JSTraceCallback callback;
JSTraceNamePrinter debugPrinter;
const void *debugPrintArg;
size_t debugPrintIndex;
JSBool eagerlyTraceWeakMaps;
#ifdef JS_GC_ZEAL
void *realLocation;
#endif
};
/*
* The method to call on each reference to a traceable thing stored in a
* particular JSObject or other runtime structure. With DEBUG defined the
* caller before calling JS_CallTracer must initialize JSTracer fields
* describing the reference using the macros below.
*/
extern JS_PUBLIC_API(void)
JS_CallTracer(JSTracer *trc, void *thing, JSGCTraceKind kind);
/*
* Set debugging information about a reference to a traceable thing to prepare
* for the following call to JS_CallTracer.
*
* When printer is null, arg must be const char * or char * C string naming
* the reference and index must be either (size_t)-1 indicating that the name
* alone describes the reference or it must be an index into some array vector
* that stores the reference.
*
* When printer callback is not null, the arg and index arguments are
* available to the callback as debugPrintArg and debugPrintIndex fields
* of JSTracer.
*
* The storage for name or callback's arguments needs to live only until
* the following call to JS_CallTracer returns.
*/
# define JS_SET_TRACING_DETAILS(trc, printer, arg, index) \
JS_BEGIN_MACRO \
(trc)->debugPrinter = (printer); \
(trc)->debugPrintArg = (arg); \
(trc)->debugPrintIndex = (index); \
JS_END_MACRO
/*
* Sets the real location for a marked reference, when passing the address
* directly is not feasable.
*
* FIXME: This is currently overcomplicated by our need to nest calls for Values
* stored as keys in hash tables, but will get simplified once we can rekey
* in-place.
*/
#ifdef JS_GC_ZEAL
# define JS_SET_TRACING_LOCATION(trc, location) \
JS_BEGIN_MACRO \
if (!(trc)->realLocation || !(location)) \
(trc)->realLocation = (location); \
JS_END_MACRO
# define JS_UNSET_TRACING_LOCATION(trc) \
JS_BEGIN_MACRO \
(trc)->realLocation = NULL; \
JS_END_MACRO
#else
# define JS_SET_TRACING_LOCATION(trc, location) \
JS_BEGIN_MACRO \
JS_END_MACRO
# define JS_UNSET_TRACING_LOCATION(trc) \
JS_BEGIN_MACRO \
JS_END_MACRO
#endif
/*
* Convenience macro to describe the argument of JS_CallTracer using C string
* and index.
*/
# define JS_SET_TRACING_INDEX(trc, name, index) \
JS_SET_TRACING_DETAILS(trc, NULL, name, index)
/*
* Convenience macro to describe the argument of JS_CallTracer using C string.
*/
# define JS_SET_TRACING_NAME(trc, name) \
JS_SET_TRACING_DETAILS(trc, NULL, name, (size_t)-1)
/*
* Convenience macro to invoke JS_CallTracer using C string as the name for
* the reference to a traceable thing.
*/
# define JS_CALL_TRACER(trc, thing, kind, name) \
JS_BEGIN_MACRO \
JS_SET_TRACING_NAME(trc, name); \
JS_CallTracer((trc), (thing), (kind)); \
JS_END_MACRO
/*
* Convenience macros to invoke JS_CallTracer when jsval represents a
* reference to a traceable thing.
*/
#define JS_CALL_VALUE_TRACER(trc, val, name) \
JS_BEGIN_MACRO \
if (JSVAL_IS_TRACEABLE(val)) { \
JS_CALL_TRACER((trc), JSVAL_TO_GCTHING(val), \
JSVAL_TRACE_KIND(val), name); \
} \
JS_END_MACRO
#define JS_CALL_OBJECT_TRACER(trc, object, name) \
JS_BEGIN_MACRO \
JSObject *obj_ = (object); \
JS_ASSERT(obj_); \
JS_CALL_TRACER((trc), obj_, JSTRACE_OBJECT, name); \
JS_END_MACRO
#define JS_CALL_STRING_TRACER(trc, string, name) \
JS_BEGIN_MACRO \
JSString *str_ = (string); \
JS_ASSERT(str_); \
JS_CALL_TRACER((trc), str_, JSTRACE_STRING, name); \
JS_END_MACRO
/*
* API for JSTraceCallback implementations.
*/
extern JS_PUBLIC_API(void)
JS_TracerInit(JSTracer *trc, JSRuntime *rt, JSTraceCallback callback);
extern JS_PUBLIC_API(void)
JS_TraceChildren(JSTracer *trc, void *thing, JSGCTraceKind kind);
extern JS_PUBLIC_API(void)
JS_TraceRuntime(JSTracer *trc);
extern JS_PUBLIC_API(void)
JS_GetTraceThingInfo(char *buf, size_t bufsize, JSTracer *trc,
void *thing, JSGCTraceKind kind, JSBool includeDetails);
extern JS_PUBLIC_API(const char *)
JS_GetTraceEdgeName(JSTracer *trc, char *buffer, int bufferSize);
#ifdef DEBUG
/*
* DEBUG-only method to dump the object graph of heap-allocated things.
*
* fp: file for the dump output.
* start: when non-null, dump only things reachable from start
* thing. Otherwise dump all things reachable from the
* runtime roots.
* startKind: trace kind of start if start is not null. Must be
* JSTRACE_OBJECT when start is null.
* thingToFind: dump only paths in the object graph leading to thingToFind
* when non-null.
* maxDepth: the upper bound on the number of edges to descend from the
* graph roots.
* thingToIgnore: thing to ignore during the graph traversal when non-null.
*/
extern JS_PUBLIC_API(JSBool)
JS_DumpHeap(JSRuntime *rt, FILE *fp, void* startThing, JSGCTraceKind kind,
void *thingToFind, size_t maxDepth, void *thingToIgnore);
#endif
/*
* Garbage collector API.
*/
extern JS_PUBLIC_API(void)
JS_GC(JSRuntime *rt);
extern JS_PUBLIC_API(void)
JS_MaybeGC(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_SetGCCallback(JSRuntime *rt, JSGCCallback cb);
extern JS_PUBLIC_API(void)
JS_SetFinalizeCallback(JSRuntime *rt, JSFinalizeCallback cb);
extern JS_PUBLIC_API(JSBool)
JS_IsGCMarkingTracer(JSTracer *trc);
extern JS_PUBLIC_API(JSBool)
JS_IsAboutToBeFinalized(void *thing);
typedef enum JSGCParamKey {
/* Maximum nominal heap before last ditch GC. */
JSGC_MAX_BYTES = 0,
/* Number of JS_malloc bytes before last ditch GC. */
JSGC_MAX_MALLOC_BYTES = 1,
/* Amount of bytes allocated by the GC. */
JSGC_BYTES = 3,
/* Number of times when GC was invoked. */
JSGC_NUMBER = 4,
/* Max size of the code cache in bytes. */
JSGC_MAX_CODE_CACHE_BYTES = 5,
/* Select GC mode. */
JSGC_MODE = 6,
/* Number of cached empty GC chunks. */
JSGC_UNUSED_CHUNKS = 7,
/* Total number of allocated GC chunks. */
JSGC_TOTAL_CHUNKS = 8,
/* Max milliseconds to spend in an incremental GC slice. */
JSGC_SLICE_TIME_BUDGET = 9,
/* Maximum size the GC mark stack can grow to. */
JSGC_MARK_STACK_LIMIT = 10,
/*
* GCs less than this far apart in time will be considered 'high-frequency GCs'.
* See setGCLastBytes in jsgc.cpp.
*/
JSGC_HIGH_FREQUENCY_TIME_LIMIT = 11,
/* Start of dynamic heap growth. */
JSGC_HIGH_FREQUENCY_LOW_LIMIT = 12,
/* End of dynamic heap growth. */
JSGC_HIGH_FREQUENCY_HIGH_LIMIT = 13,
/* Upper bound of heap growth. */
JSGC_HIGH_FREQUENCY_HEAP_GROWTH_MAX = 14,
/* Lower bound of heap growth. */
JSGC_HIGH_FREQUENCY_HEAP_GROWTH_MIN = 15,
/* Heap growth for low frequency GCs. */
JSGC_LOW_FREQUENCY_HEAP_GROWTH = 16,
/*
* If false, the heap growth factor is fixed at 3. If true, it is determined
* based on whether GCs are high- or low- frequency.
*/
JSGC_DYNAMIC_HEAP_GROWTH = 17,
/* If true, high-frequency GCs will use a longer mark slice. */
JSGC_DYNAMIC_MARK_SLICE = 18,
/* Number of megabytes of analysis data to allocate before purging. */
JSGC_ANALYSIS_PURGE_TRIGGER = 19,
/* Lower limit after which we limit the heap growth. */
JSGC_ALLOCATION_THRESHOLD = 20
} JSGCParamKey;
typedef enum JSGCMode {
/* Perform only global GCs. */
JSGC_MODE_GLOBAL = 0,
/* Perform per-compartment GCs until too much garbage has accumulated. */
JSGC_MODE_COMPARTMENT = 1,
/*
* Collect in short time slices rather than all at once. Implies
* JSGC_MODE_COMPARTMENT.
*/
JSGC_MODE_INCREMENTAL = 2
} JSGCMode;
extern JS_PUBLIC_API(void)
JS_SetGCParameter(JSRuntime *rt, JSGCParamKey key, uint32_t value);
extern JS_PUBLIC_API(uint32_t)
JS_GetGCParameter(JSRuntime *rt, JSGCParamKey key);
extern JS_PUBLIC_API(void)
JS_SetGCParameterForThread(JSContext *cx, JSGCParamKey key, uint32_t value);
extern JS_PUBLIC_API(uint32_t)
JS_GetGCParameterForThread(JSContext *cx, JSGCParamKey key);
/*
* Create a new JSString whose chars member refers to external memory, i.e.,
* memory requiring application-specific finalization.
*/
extern JS_PUBLIC_API(JSString *)
JS_NewExternalString(JSContext *cx, const jschar *chars, size_t length,
const JSStringFinalizer *fin);
/*
* Return whether 'str' was created with JS_NewExternalString or
* JS_NewExternalStringWithClosure.
*/
extern JS_PUBLIC_API(JSBool)
JS_IsExternalString(JSString *str);
/*
* Return the 'closure' arg passed to JS_NewExternalStringWithClosure or NULL
* if the external string was created via JS_NewExternalString.
*/
extern JS_PUBLIC_API(const JSStringFinalizer *)
JS_GetExternalStringFinalizer(JSString *str);
/*
* Set the size of the native stack that should not be exceed. To disable
* stack size checking pass 0.
*/
extern JS_PUBLIC_API(void)
JS_SetNativeStackQuota(JSRuntime *cx, size_t stackSize);
/************************************************************************/
/*
* Classes, objects, and properties.
*/
typedef void (*JSClassInternal)();
struct JSClass {
const char *name;
uint32_t flags;
/* Mandatory non-null function pointer members. */
JSPropertyOp addProperty;
JSPropertyOp delProperty;
JSPropertyOp getProperty;
JSStrictPropertyOp setProperty;
JSEnumerateOp enumerate;
JSResolveOp resolve;
JSConvertOp convert;
JSFinalizeOp finalize;
/* Optionally non-null members start here. */
JSCheckAccessOp checkAccess;
JSNative call;
JSHasInstanceOp hasInstance;
JSNative construct;
JSTraceOp trace;
void *reserved[40];
};
#define JSCLASS_HAS_PRIVATE (1<<0) /* objects have private slot */
#define JSCLASS_NEW_ENUMERATE (1<<1) /* has JSNewEnumerateOp hook */
#define JSCLASS_NEW_RESOLVE (1<<2) /* has JSNewResolveOp hook */
#define JSCLASS_PRIVATE_IS_NSISUPPORTS (1<<3) /* private is (nsISupports *) */
#define JSCLASS_IS_DOMJSCLASS (1<<4) /* objects are DOM */
#define JSCLASS_IMPLEMENTS_BARRIERS (1<<5) /* Correctly implements GC read
and write barriers */
#define JSCLASS_DOCUMENT_OBSERVER (1<<6) /* DOM document observer */
#define JSCLASS_USERBIT1 (1<<7) /* Reserved for embeddings. */
/*
* To reserve slots fetched and stored via JS_Get/SetReservedSlot, bitwise-or
* JSCLASS_HAS_RESERVED_SLOTS(n) into the initializer for JSClass.flags, where
* n is a constant in [1, 255]. Reserved slots are indexed from 0 to n-1.
*/
#define JSCLASS_RESERVED_SLOTS_SHIFT 8 /* room for 8 flags below */
#define JSCLASS_RESERVED_SLOTS_WIDTH 8 /* and 16 above this field */
#define JSCLASS_RESERVED_SLOTS_MASK JS_BITMASK(JSCLASS_RESERVED_SLOTS_WIDTH)
#define JSCLASS_HAS_RESERVED_SLOTS(n) (((n) & JSCLASS_RESERVED_SLOTS_MASK) \
<< JSCLASS_RESERVED_SLOTS_SHIFT)
#define JSCLASS_RESERVED_SLOTS(clasp) (((clasp)->flags \
>> JSCLASS_RESERVED_SLOTS_SHIFT) \
& JSCLASS_RESERVED_SLOTS_MASK)
#define JSCLASS_HIGH_FLAGS_SHIFT (JSCLASS_RESERVED_SLOTS_SHIFT + \
JSCLASS_RESERVED_SLOTS_WIDTH)
#define JSCLASS_IS_ANONYMOUS (1<<(JSCLASS_HIGH_FLAGS_SHIFT+0))
#define JSCLASS_IS_GLOBAL (1<<(JSCLASS_HIGH_FLAGS_SHIFT+1))
#define JSCLASS_INTERNAL_FLAG2 (1<<(JSCLASS_HIGH_FLAGS_SHIFT+2))
#define JSCLASS_INTERNAL_FLAG3 (1<<(JSCLASS_HIGH_FLAGS_SHIFT+3))
/* Indicate whether the proto or ctor should be frozen. */
#define JSCLASS_FREEZE_PROTO (1<<(JSCLASS_HIGH_FLAGS_SHIFT+4))
#define JSCLASS_FREEZE_CTOR (1<<(JSCLASS_HIGH_FLAGS_SHIFT+5))
#define JSCLASS_XPCONNECT_GLOBAL (1<<(JSCLASS_HIGH_FLAGS_SHIFT+6))
/* Reserved for embeddings. */
#define JSCLASS_USERBIT2 (1<<(JSCLASS_HIGH_FLAGS_SHIFT+7))
#define JSCLASS_USERBIT3 (1<<(JSCLASS_HIGH_FLAGS_SHIFT+8))
/*
* Bits 26 through 31 are reserved for the CACHED_PROTO_KEY mechanism, see
* below.
*/
/* Global flags. */
#define JSGLOBAL_FLAGS_CLEARED 0x1
/*
* ECMA-262 requires that most constructors used internally create objects
* with "the original Foo.prototype value" as their [[Prototype]] (__proto__)
* member initial value. The "original ... value" verbiage is there because
* in ECMA-262, global properties naming class objects are read/write and
* deleteable, for the most part.
*
* Implementing this efficiently requires that global objects have classes
* with the following flags. Failure to use JSCLASS_GLOBAL_FLAGS was
* prevously allowed, but is now an ES5 violation and thus unsupported.
*/
#define JSCLASS_GLOBAL_SLOT_COUNT (JSProto_LIMIT * 3 + 23)
#define JSCLASS_GLOBAL_FLAGS_WITH_SLOTS(n) \
(JSCLASS_IS_GLOBAL | JSCLASS_HAS_RESERVED_SLOTS(JSCLASS_GLOBAL_SLOT_COUNT + (n)))
#define JSCLASS_GLOBAL_FLAGS \
JSCLASS_GLOBAL_FLAGS_WITH_SLOTS(0)
#define JSCLASS_HAS_GLOBAL_FLAG_AND_SLOTS(clasp) \
(((clasp)->flags & JSCLASS_IS_GLOBAL) \
&& JSCLASS_RESERVED_SLOTS(clasp) >= JSCLASS_GLOBAL_SLOT_COUNT)
/* Fast access to the original value of each standard class's prototype. */
#define JSCLASS_CACHED_PROTO_SHIFT (JSCLASS_HIGH_FLAGS_SHIFT + 10)
#define JSCLASS_CACHED_PROTO_WIDTH 6
#define JSCLASS_CACHED_PROTO_MASK JS_BITMASK(JSCLASS_CACHED_PROTO_WIDTH)
#define JSCLASS_HAS_CACHED_PROTO(key) (uint32_t(key) << JSCLASS_CACHED_PROTO_SHIFT)
#define JSCLASS_CACHED_PROTO_KEY(clasp) ((JSProtoKey) \
(((clasp)->flags \
>> JSCLASS_CACHED_PROTO_SHIFT) \
& JSCLASS_CACHED_PROTO_MASK))
/* Initializer for unused members of statically initialized JSClass structs. */
#define JSCLASS_NO_INTERNAL_MEMBERS {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}
#define JSCLASS_NO_OPTIONAL_MEMBERS 0,0,0,0,0,JSCLASS_NO_INTERNAL_MEMBERS
extern JS_PUBLIC_API(int)
JS_IdArrayLength(JSContext *cx, JSIdArray *ida);
extern JS_PUBLIC_API(jsid)
JS_IdArrayGet(JSContext *cx, JSIdArray *ida, int index);
extern JS_PUBLIC_API(void)
JS_DestroyIdArray(JSContext *cx, JSIdArray *ida);
#ifdef __cplusplus
namespace JS {
class AutoIdArray : private AutoGCRooter {
public:
AutoIdArray(JSContext *cx, JSIdArray *ida JS_GUARD_OBJECT_NOTIFIER_PARAM)
: AutoGCRooter(cx, IDARRAY), context(cx), idArray(ida)
{
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
~AutoIdArray() {
if (idArray)
JS_DestroyIdArray(context, idArray);
}
bool operator!() {
return !idArray;
}
jsid operator[](size_t i) const {
JS_ASSERT(idArray);
JS_ASSERT(i < length());
return JS_IdArrayGet(context, idArray, i);
}
size_t length() const {
return JS_IdArrayLength(context, idArray);
}
friend void AutoGCRooter::trace(JSTracer *trc);
JSIdArray *steal() {
JSIdArray *copy = idArray;
idArray = NULL;
return copy;
}
protected:
inline void trace(JSTracer *trc);
private:
JSContext *context;
JSIdArray *idArray;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
/* No copy or assignment semantics. */
AutoIdArray(AutoIdArray &ida) MOZ_DELETE;
void operator=(AutoIdArray &ida) MOZ_DELETE;
};
} /* namespace JS */
#endif /* __cplusplus */
extern JS_PUBLIC_API(JSBool)
JS_ValueToId(JSContext *cx, jsval v, jsid *idp);
extern JS_PUBLIC_API(JSBool)
JS_IdToValue(JSContext *cx, jsid id, jsval *vp);
/*
* JSNewResolveOp flag bits.
*/
#define JSRESOLVE_QUALIFIED 0x01 /* resolve a qualified property id */
#define JSRESOLVE_ASSIGNING 0x02 /* resolve on the left of assignment */
#define JSRESOLVE_DETECTING 0x04 /* 'if (o.p)...' or '(o.p) ?...:...' */
/*
* Invoke the [[DefaultValue]] hook (see ES5 8.6.2) with the provided hint on
* the specified object, computing a primitive default value for the object.
* The hint must be JSTYPE_STRING, JSTYPE_NUMBER, or JSTYPE_VOID (no hint). On
* success the resulting value is stored in *vp.
*/
extern JS_PUBLIC_API(JSBool)
JS_DefaultValue(JSContext *cx, JSObject *obj, JSType hint, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_PropertyStub(JSContext *cx, JSHandleObject obj, JSHandleId id, JSMutableHandleValue vp);
extern JS_PUBLIC_API(JSBool)
JS_StrictPropertyStub(JSContext *cx, JSHandleObject obj, JSHandleId id, JSBool strict, JSMutableHandleValue vp);
extern JS_PUBLIC_API(JSBool)
JS_EnumerateStub(JSContext *cx, JSHandleObject obj);
extern JS_PUBLIC_API(JSBool)
JS_ResolveStub(JSContext *cx, JSHandleObject obj, JSHandleId id);
extern JS_PUBLIC_API(JSBool)
JS_ConvertStub(JSContext *cx, JSHandleObject obj, JSType type, JSMutableHandleValue vp);
struct JSConstDoubleSpec {
double dval;
const char *name;
uint8_t flags;
uint8_t spare[3];
};
typedef struct JSJitInfo JSJitInfo;
/*
* Wrappers to replace {Strict,}PropertyOp for JSPropertySpecs. This will allow
* us to pass one JSJitInfo per function with the property spec, without
* additional field overhead.
*/
typedef struct JSStrictPropertyOpWrapper {
JSStrictPropertyOp op;
const JSJitInfo *info;
} JSStrictPropertyOpWrapper;
typedef struct JSPropertyOpWrapper {
JSPropertyOp op;
const JSJitInfo *info;
} JSPropertyOpWrapper;
/*
* Wrapper to do as above, but for JSNatives for JSFunctionSpecs.
*/
typedef struct JSNativeWrapper {
JSNative op;
const JSJitInfo *info;
} JSNativeWrapper;
/*
* Macro static initializers which make it easy to pass no JSJitInfo as part of a
* JSPropertySpec or JSFunctionSpec.
*/
#define JSOP_WRAPPER(op) {op, NULL}
#define JSOP_NULLWRAPPER JSOP_WRAPPER(NULL)
/*
* To define an array element rather than a named property member, cast the
* element's index to (const char *) and initialize name with it, and set the
* JSPROP_INDEX bit in flags.
*/
struct JSPropertySpec {
const char *name;
int8_t tinyid;
uint8_t flags;
JSPropertyOpWrapper getter;
JSStrictPropertyOpWrapper setter;
};
/*
* To define a native function, set call to a JSNativeWrapper. To define a
* self-hosted function, set selfHostedName to the name of a function
* compiled during JSRuntime::initSelfHosting.
*/
struct JSFunctionSpec {
const char *name;
JSNativeWrapper call;
uint16_t nargs;
uint16_t flags;
const char *selfHostedName;
};
/*
* Terminating sentinel initializer to put at the end of a JSFunctionSpec array
* that's passed to JS_DefineFunctions or JS_InitClass.
*/
#define JS_FS_END JS_FS(NULL,NULL,0,0)
/*
* Initializer macros for a JSFunctionSpec array element. JS_FN (whose name
* pays homage to the old JSNative/JSFastNative split) simply adds the flag
* JSFUN_STUB_GSOPS. JS_FNINFO allows the simple adding of JSJitInfos.
*/
#define JS_FS(name,call,nargs,flags) \
{name, JSOP_WRAPPER(call), nargs, flags}
#define JS_FN(name,call,nargs,flags) \
{name, JSOP_WRAPPER(call), nargs, (flags) | JSFUN_STUB_GSOPS}
#define JS_FNINFO(name,call,info,nargs,flags) \
{name,{call,info},nargs,flags}
extern JS_PUBLIC_API(JSObject *)
JS_InitClass(JSContext *cx, JSObject *obj, JSObject *parent_proto,
JSClass *clasp, JSNative constructor, unsigned nargs,
JSPropertySpec *ps, JSFunctionSpec *fs,
JSPropertySpec *static_ps, JSFunctionSpec *static_fs);
/*
* Set up ctor.prototype = proto and proto.constructor = ctor with the
* right property flags.
*/
extern JS_PUBLIC_API(JSBool)
JS_LinkConstructorAndPrototype(JSContext *cx, JSObject *ctor, JSObject *proto);
extern JS_PUBLIC_API(JSClass *)
JS_GetClass(JSRawObject obj);
extern JS_PUBLIC_API(JSBool)
JS_InstanceOf(JSContext *cx, JSObject *obj, JSClass *clasp, jsval *argv);
extern JS_PUBLIC_API(JSBool)
JS_HasInstance(JSContext *cx, JSObject *obj, jsval v, JSBool *bp);
extern JS_PUBLIC_API(void *)
JS_GetPrivate(JSRawObject obj);
extern JS_PUBLIC_API(void)
JS_SetPrivate(JSRawObject obj, void *data);
extern JS_PUBLIC_API(void *)
JS_GetInstancePrivate(JSContext *cx, JSObject *obj, JSClass *clasp,
jsval *argv);
extern JS_PUBLIC_API(JSBool)
JS_GetPrototype(JSContext *cx, JSObject *obj, JSObject **protop);
extern JS_PUBLIC_API(JSBool)
JS_SetPrototype(JSContext *cx, JSObject *obj, JSObject *proto);
extern JS_PUBLIC_API(JSObject *)
JS_GetParent(JSRawObject obj);
extern JS_PUBLIC_API(JSBool)
JS_SetParent(JSContext *cx, JSObject *obj, JSObject *parent);
extern JS_PUBLIC_API(JSObject *)
JS_GetConstructor(JSContext *cx, JSObject *proto);
/*
* Get a unique identifier for obj, good for the lifetime of obj (even if it
* is moved by a copying GC). Return false on failure (likely out of memory),
* and true with *idp containing the unique id on success.
*/
extern JS_PUBLIC_API(JSBool)
JS_GetObjectId(JSContext *cx, JSRawObject obj, jsid *idp);
extern JS_PUBLIC_API(JSObject *)
JS_NewGlobalObject(JSContext *cx, JSClass *clasp, JSPrincipals *principals);
extern JS_PUBLIC_API(JSObject *)
JS_NewObject(JSContext *cx, JSClass *clasp, JSObject *proto, JSObject *parent);
/* Queries the [[Extensible]] property of the object. */
extern JS_PUBLIC_API(JSBool)
JS_IsExtensible(JSRawObject obj);
extern JS_PUBLIC_API(JSBool)
JS_IsNative(JSRawObject obj);
extern JS_PUBLIC_API(JSRuntime *)
JS_GetObjectRuntime(JSRawObject obj);
/*
* Unlike JS_NewObject, JS_NewObjectWithGivenProto does not compute a default
* proto if proto's actual parameter value is null.
*/
extern JS_PUBLIC_API(JSObject *)
JS_NewObjectWithGivenProto(JSContext *cx, JSClass *clasp, JSObject *proto,
JSObject *parent);
/*
* Freeze obj, and all objects it refers to, recursively. This will not recurse
* through non-extensible objects, on the assumption that those are already
* deep-frozen.
*/
extern JS_PUBLIC_API(JSBool)
JS_DeepFreezeObject(JSContext *cx, JSObject *obj);
/*
* Freezes an object; see ES5's Object.freeze(obj) method.
*/
extern JS_PUBLIC_API(JSBool)
JS_FreezeObject(JSContext *cx, JSObject *obj);
extern JS_PUBLIC_API(JSObject *)
JS_New(JSContext *cx, JSObject *ctor, unsigned argc, jsval *argv);
extern JS_PUBLIC_API(JSObject *)
JS_DefineObject(JSContext *cx, JSObject *obj, const char *name, JSClass *clasp,
JSObject *proto, unsigned attrs);
extern JS_PUBLIC_API(JSBool)
JS_DefineConstDoubles(JSContext *cx, JSObject *obj, JSConstDoubleSpec *cds);
extern JS_PUBLIC_API(JSBool)
JS_DefineProperties(JSContext *cx, JSObject *obj, JSPropertySpec *ps);
extern JS_PUBLIC_API(JSBool)
JS_DefineProperty(JSContext *cx, JSObject *obj, const char *name, jsval value,
JSPropertyOp getter, JSStrictPropertyOp setter, unsigned attrs);
extern JS_PUBLIC_API(JSBool)
JS_DefinePropertyById(JSContext *cx, JSObject *obj, jsid id, jsval value,
JSPropertyOp getter, JSStrictPropertyOp setter, unsigned attrs);
extern JS_PUBLIC_API(JSBool)
JS_DefineOwnProperty(JSContext *cx, JSObject *obj, jsid id, jsval descriptor, JSBool *bp);
/*
* Determine the attributes (JSPROP_* flags) of a property on a given object.
*
* If the object does not have a property by that name, *foundp will be
* JS_FALSE and the value of *attrsp is undefined.
*/
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyAttributes(JSContext *cx, JSObject *obj, const char *name,
unsigned *attrsp, JSBool *foundp);
/*
* The same, but if the property is native, return its getter and setter via
* *getterp and *setterp, respectively (and only if the out parameter pointer
* is not null).
*/
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyAttrsGetterAndSetter(JSContext *cx, JSObject *obj,
const char *name,
unsigned *attrsp, JSBool *foundp,
JSPropertyOp *getterp,
JSStrictPropertyOp *setterp);
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyAttrsGetterAndSetterById(JSContext *cx, JSObject *obj,
jsid id,
unsigned *attrsp, JSBool *foundp,
JSPropertyOp *getterp,
JSStrictPropertyOp *setterp);
/*
* Set the attributes of a property on a given object.
*
* If the object does not have a property by that name, *foundp will be
* JS_FALSE and nothing will be altered.
*/
extern JS_PUBLIC_API(JSBool)
JS_SetPropertyAttributes(JSContext *cx, JSObject *obj, const char *name,
unsigned attrs, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_DefinePropertyWithTinyId(JSContext *cx, JSObject *obj, const char *name,
int8_t tinyid, jsval value,
JSPropertyOp getter, JSStrictPropertyOp setter,
unsigned attrs);
extern JS_PUBLIC_API(JSBool)
JS_AlreadyHasOwnProperty(JSContext *cx, JSObject *obj, const char *name,
JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_AlreadyHasOwnPropertyById(JSContext *cx, JSObject *obj, jsid id,
JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_HasProperty(JSContext *cx, JSObject *obj, const char *name, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_HasPropertyById(JSContext *cx, JSObject *obj, jsid id, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_LookupProperty(JSContext *cx, JSObject *obj, const char *name, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_LookupPropertyById(JSContext *cx, JSObject *obj, jsid id, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_LookupPropertyWithFlags(JSContext *cx, JSObject *obj, const char *name,
unsigned flags, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_LookupPropertyWithFlagsById(JSContext *cx, JSObject *obj, jsid id,
unsigned flags, JSObject **objp, jsval *vp);
struct JSPropertyDescriptor {
JSObject *obj;
unsigned attrs;
unsigned shortid;
JSPropertyOp getter;
JSStrictPropertyOp setter;
jsval value;
};
/*
* Like JS_GetPropertyAttrsGetterAndSetterById but will return a property on
* an object on the prototype chain (returned in objp). If data->obj is null,
* then this property was not found on the prototype chain.
*/
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyDescriptorById(JSContext *cx, JSObject *obj, jsid id, unsigned flags,
JSPropertyDescriptor *desc);
extern JS_PUBLIC_API(JSBool)
JS_GetOwnPropertyDescriptor(JSContext *cx, JSObject *obj, jsid id, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetProperty(JSContext *cx, JSObject *obj, const char *name, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyDefault(JSContext *cx, JSObject *obj, const char *name, jsval def, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyById(JSContext *cx, JSObject *obj, jsid id, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetPropertyByIdDefault(JSContext *cx, JSObject *obj, jsid id, jsval def, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_ForwardGetPropertyTo(JSContext *cx, JSObject *obj, jsid id, JSObject *onBehalfOf, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetMethodById(JSContext *cx, JSObject *obj, jsid id, JSObject **objp,
jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetMethod(JSContext *cx, JSObject *obj, const char *name, JSObject **objp,
jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_SetProperty(JSContext *cx, JSObject *obj, const char *name, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_SetPropertyById(JSContext *cx, JSObject *obj, jsid id, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_DeleteProperty(JSContext *cx, JSObject *obj, const char *name);
extern JS_PUBLIC_API(JSBool)
JS_DeleteProperty2(JSContext *cx, JSObject *obj, const char *name,
jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_DeletePropertyById(JSContext *cx, JSObject *obj, jsid id);
extern JS_PUBLIC_API(JSBool)
JS_DeletePropertyById2(JSContext *cx, JSObject *obj, jsid id, jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_DefineUCProperty(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen, jsval value,
JSPropertyOp getter, JSStrictPropertyOp setter,
unsigned attrs);
/*
* Determine the attributes (JSPROP_* flags) of a property on a given object.
*
* If the object does not have a property by that name, *foundp will be
* JS_FALSE and the value of *attrsp is undefined.
*/
extern JS_PUBLIC_API(JSBool)
JS_GetUCPropertyAttributes(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
unsigned *attrsp, JSBool *foundp);
/*
* The same, but if the property is native, return its getter and setter via
* *getterp and *setterp, respectively (and only if the out parameter pointer
* is not null).
*/
extern JS_PUBLIC_API(JSBool)
JS_GetUCPropertyAttrsGetterAndSetter(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
unsigned *attrsp, JSBool *foundp,
JSPropertyOp *getterp,
JSStrictPropertyOp *setterp);
/*
* Set the attributes of a property on a given object.
*
* If the object does not have a property by that name, *foundp will be
* JS_FALSE and nothing will be altered.
*/
extern JS_PUBLIC_API(JSBool)
JS_SetUCPropertyAttributes(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
unsigned attrs, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_DefineUCPropertyWithTinyId(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
int8_t tinyid, jsval value,
JSPropertyOp getter, JSStrictPropertyOp setter,
unsigned attrs);
extern JS_PUBLIC_API(JSBool)
JS_AlreadyHasOwnUCProperty(JSContext *cx, JSObject *obj, const jschar *name,
size_t namelen, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_HasUCProperty(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
JSBool *vp);
extern JS_PUBLIC_API(JSBool)
JS_LookupUCProperty(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetUCProperty(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_SetUCProperty(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_DeleteUCProperty2(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen,
jsval *rval);
extern JS_PUBLIC_API(JSObject *)
JS_NewArrayObject(JSContext *cx, int length, jsval *vector);
extern JS_PUBLIC_API(JSBool)
JS_IsArrayObject(JSContext *cx, JSObject *obj);
extern JS_PUBLIC_API(JSBool)
JS_GetArrayLength(JSContext *cx, JSObject *obj, uint32_t *lengthp);
extern JS_PUBLIC_API(JSBool)
JS_SetArrayLength(JSContext *cx, JSObject *obj, uint32_t length);
extern JS_PUBLIC_API(JSBool)
JS_DefineElement(JSContext *cx, JSObject *obj, uint32_t index, jsval value,
JSPropertyOp getter, JSStrictPropertyOp setter, unsigned attrs);
extern JS_PUBLIC_API(JSBool)
JS_AlreadyHasOwnElement(JSContext *cx, JSObject *obj, uint32_t index, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_HasElement(JSContext *cx, JSObject *obj, uint32_t index, JSBool *foundp);
extern JS_PUBLIC_API(JSBool)
JS_LookupElement(JSContext *cx, JSObject *obj, uint32_t index, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_GetElement(JSContext *cx, JSObject *obj, uint32_t index, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_ForwardGetElementTo(JSContext *cx, JSObject *obj, uint32_t index, JSObject *onBehalfOf,
jsval *vp);
/*
* Get the property with name given by |index|, if it has one. If
* not, |*present| will be set to false and the value of |vp| must not
* be relied on.
*/
extern JS_PUBLIC_API(JSBool)
JS_GetElementIfPresent(JSContext *cx, JSObject *obj, uint32_t index, JSObject *onBehalfOf,
jsval *vp, JSBool* present);
extern JS_PUBLIC_API(JSBool)
JS_SetElement(JSContext *cx, JSObject *obj, uint32_t index, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_DeleteElement(JSContext *cx, JSObject *obj, uint32_t index);
extern JS_PUBLIC_API(JSBool)
JS_DeleteElement2(JSContext *cx, JSObject *obj, uint32_t index, jsval *rval);
/*
* Remove all configurable properties from the given (non-global) object and
* assign undefined to all writable data properties.
*/
JS_PUBLIC_API(void)
JS_ClearNonGlobalObject(JSContext *cx, JSObject *objArg);
/*
* Assign 'undefined' to all of the object's non-reserved slots. Note: this is
* done for all slots, regardless of the associated property descriptor.
*/
JS_PUBLIC_API(void)
JS_SetAllNonReservedSlotsToUndefined(JSContext *cx, JSObject *objArg);
/*
* Create a new array buffer with the given contents, which must have been
* returned by JS_AllocateArrayBufferContents or JS_StealArrayBufferContents.
* The new array buffer takes ownership. After calling this function, do not
* free |contents| or use |contents| from another thread.
*/
extern JS_PUBLIC_API(JSObject *)
JS_NewArrayBufferWithContents(JSContext *cx, void *contents);
/*
* Steal the contents of the given array buffer. The array buffer has its
* length set to 0 and its contents array cleared. The caller takes ownership
* of |*contents| and must free it or transfer ownership via
* JS_NewArrayBufferWithContents when done using it.
* To free |*contents|, call free().
* A pointer to the buffer's data is returned in |*data|. This pointer can
* be used until |*contents| is freed or has its ownership transferred.
*/
extern JS_PUBLIC_API(JSBool)
JS_StealArrayBufferContents(JSContext *cx, JSObject *obj, void **contents,
uint8_t **data);
/*
* Allocate memory that may be eventually passed to
* JS_NewArrayBufferWithContents. |nbytes| is the number of payload bytes
* required. The pointer to pass to JS_NewArrayBufferWithContents is returned
* in |contents|. The pointer to the |nbytes| of usable memory is returned in
* |data|. (*|contents| will contain a header before |data|.) The only legal
* operations on *|contents| is to free it or pass it to
* JS_NewArrayBufferWithContents.
*/
extern JS_PUBLIC_API(JSBool)
JS_AllocateArrayBufferContents(JSContext *cx, uint32_t nbytes, void **contents, uint8_t **data);
extern JS_PUBLIC_API(JSIdArray *)
JS_Enumerate(JSContext *cx, JSObject *obj);
/*
* Create an object to iterate over enumerable properties of obj, in arbitrary
* property definition order. NB: This differs from longstanding for..in loop
* order, which uses order of property definition in obj.
*/
extern JS_PUBLIC_API(JSObject *)
JS_NewPropertyIterator(JSContext *cx, JSObject *obj);
/*
* Return true on success with *idp containing the id of the next enumerable
* property to visit using iterobj, or JSID_IS_VOID if there is no such property
* left to visit. Return false on error.
*/
extern JS_PUBLIC_API(JSBool)
JS_NextProperty(JSContext *cx, JSObject *iterobj, jsid *idp);
/*
* A JSNative that creates and returns a new iterator that iterates over the
* elements of |this|, up to |this.length|, in index order. This can be used to
* make any array-like object iterable. Just give the object an obj.iterator()
* method using this JSNative as the implementation.
*/
extern JS_PUBLIC_API(JSBool)
JS_ArrayIterator(JSContext *cx, unsigned argc, jsval *vp);
extern JS_PUBLIC_API(JSBool)
JS_CheckAccess(JSContext *cx, JSObject *obj, jsid id, JSAccessMode mode,
jsval *vp, unsigned *attrsp);
extern JS_PUBLIC_API(jsval)
JS_GetReservedSlot(JSRawObject obj, uint32_t index);
extern JS_PUBLIC_API(void)
JS_SetReservedSlot(JSRawObject obj, uint32_t index, jsval v);
/************************************************************************/
/*
* Security protocol.
*/
struct JSPrincipals {
/* Don't call "destroy"; use reference counting macros below. */
int refcount;
#ifdef DEBUG
/* A helper to facilitate principals debugging. */
uint32_t debugToken;
#endif
#ifdef __cplusplus
void setDebugToken(uint32_t token) {
# ifdef DEBUG
debugToken = token;
# endif
}
/*
* This is not defined by the JS engine but should be provided by the
* embedding.
*/
JS_PUBLIC_API(void) dump();
#endif
};
extern JS_PUBLIC_API(void)
JS_HoldPrincipals(JSPrincipals *principals);
extern JS_PUBLIC_API(void)
JS_DropPrincipals(JSRuntime *rt, JSPrincipals *principals);
struct JSSecurityCallbacks {
JSCheckAccessOp checkObjectAccess;
JSCSPEvalChecker contentSecurityPolicyAllows;
};
extern JS_PUBLIC_API(void)
JS_SetSecurityCallbacks(JSRuntime *rt, const JSSecurityCallbacks *callbacks);
extern JS_PUBLIC_API(const JSSecurityCallbacks *)
JS_GetSecurityCallbacks(JSRuntime *rt);
/*
* Code running with "trusted" principals will be given a deeper stack
* allocation than ordinary scripts. This allows trusted script to run after
* untrusted script has exhausted the stack. This function sets the
* runtime-wide trusted principal.
*
* This principals is not held (via JS_HoldPrincipals/JS_DropPrincipals) since
* there is no available JSContext. Instead, the caller must ensure that the
* given principals stays valid for as long as 'rt' may point to it. If the
* principals would be destroyed before 'rt', JS_SetTrustedPrincipals must be
* called again, passing NULL for 'prin'.
*/
extern JS_PUBLIC_API(void)
JS_SetTrustedPrincipals(JSRuntime *rt, JSPrincipals *prin);
/*
* Initialize the callback that is called to destroy JSPrincipals instance
* when its reference counter drops to zero. The initialization can be done
* only once per JS runtime.
*/
extern JS_PUBLIC_API(void)
JS_InitDestroyPrincipalsCallback(JSRuntime *rt, JSDestroyPrincipalsOp destroyPrincipals);
/************************************************************************/
/*
* Functions and scripts.
*/
extern JS_PUBLIC_API(JSFunction *)
JS_NewFunction(JSContext *cx, JSNative call, unsigned nargs, unsigned flags,
JSObject *parent, const char *name);
/*
* Create the function with the name given by the id. JSID_IS_STRING(id) must
* be true.
*/
extern JS_PUBLIC_API(JSFunction *)
JS_NewFunctionById(JSContext *cx, JSNative call, unsigned nargs, unsigned flags,
JSObject *parent, jsid id);
extern JS_PUBLIC_API(JSObject *)
JS_GetFunctionObject(JSFunction *fun);
/*
* Return the function's identifier as a JSString, or null if fun is unnamed.
* The returned string lives as long as fun, so you don't need to root a saved
* reference to it if fun is well-connected or rooted, and provided you bound
* the use of the saved reference by fun's lifetime.
*/
extern JS_PUBLIC_API(JSString *)
JS_GetFunctionId(JSFunction *fun);
/*
* Return a function's display name. This is the defined name if one was given
* where the function was defined, or it could be an inferred name by the JS
* engine in the case that the function was defined to be anonymous. This can
* still return NULL if a useful display name could not be inferred. The same
* restrictions on rooting as those in JS_GetFunctionId apply.
*/
extern JS_PUBLIC_API(JSString *)
JS_GetFunctionDisplayId(JSFunction *fun);
/*
* Return JSFUN_* flags for fun.
*/
extern JS_PUBLIC_API(unsigned)
JS_GetFunctionFlags(JSFunction *fun);
/*
* Return the arity (length) of fun.
*/
extern JS_PUBLIC_API(uint16_t)
JS_GetFunctionArity(JSFunction *fun);
/*
* Infallible predicate to test whether obj is a function object (faster than
* comparing obj's class name to "Function", but equivalent unless someone has
* overwritten the "Function" identifier with a different constructor and then
* created instances using that constructor that might be passed in as obj).
*/
extern JS_PUBLIC_API(JSBool)
JS_ObjectIsFunction(JSContext *cx, JSRawObject obj);
extern JS_PUBLIC_API(JSBool)
JS_ObjectIsCallable(JSContext *cx, JSRawObject obj);
extern JS_PUBLIC_API(JSBool)
JS_IsNativeFunction(JSRawObject funobj, JSNative call);
/*
* Bind the given callable to use the given object as "this".
*
* If |callable| is not callable, will throw and return NULL.
*/
extern JS_PUBLIC_API(JSObject*)
JS_BindCallable(JSContext *cx, JSObject *callable, JSRawObject newThis);
extern JS_PUBLIC_API(JSBool)
JS_DefineFunctions(JSContext *cx, JSObject *obj, JSFunctionSpec *fs);
extern JS_PUBLIC_API(JSFunction *)
JS_DefineFunction(JSContext *cx, JSObject *obj, const char *name, JSNative call,
unsigned nargs, unsigned attrs);
extern JS_PUBLIC_API(JSFunction *)
JS_DefineUCFunction(JSContext *cx, JSObject *obj,
const jschar *name, size_t namelen, JSNative call,
unsigned nargs, unsigned attrs);
extern JS_PUBLIC_API(JSFunction *)
JS_DefineFunctionById(JSContext *cx, JSObject *obj, jsid id, JSNative call,
unsigned nargs, unsigned attrs);
/*
* Clone a top-level function into a new scope. This function will dynamically
* fail if funobj was lexically nested inside some other function.
*/
extern JS_PUBLIC_API(JSObject *)
JS_CloneFunctionObject(JSContext *cx, JSObject *funobj, JSRawObject parent);
/*
* Given a buffer, return JS_FALSE if the buffer might become a valid
* javascript statement with the addition of more lines. Otherwise return
* JS_TRUE. The intent is to support interactive compilation - accumulate
* lines in a buffer until JS_BufferIsCompilableUnit is true, then pass it to
* the compiler.
*/
extern JS_PUBLIC_API(JSBool)
JS_BufferIsCompilableUnit(JSContext *cx, JSBool bytes_are_utf8,
JSObject *obj, const char *bytes, size_t length);
extern JS_PUBLIC_API(JSScript *)
JS_CompileScript(JSContext *cx, JSObject *obj,
const char *bytes, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSScript *)
JS_CompileScriptForPrincipals(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const char *bytes, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSScript *)
JS_CompileScriptForPrincipalsVersion(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const char *bytes, size_t length,
const char *filename, unsigned lineno,
JSVersion version);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUCScript(JSContext *cx, JSObject *obj,
const jschar *chars, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUCScriptForPrincipals(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const jschar *chars, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUCScriptForPrincipalsVersion(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const jschar *chars, size_t length,
const char *filename, unsigned lineno,
JSVersion version);
/*
* If originPrincipals is null, then the value of principals is used as origin
* principals for the compiled script.
*/
extern JS_PUBLIC_API(JSScript *)
JS_CompileUCScriptForPrincipalsVersionOrigin(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
JSPrincipals *originPrincipals,
const jschar *chars, size_t length,
const char *filename, unsigned lineno,
JSVersion version);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUTF8File(JSContext *cx, JSObject *obj, const char *filename);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUTF8FileHandle(JSContext *cx, JSObject *obj, const char *filename,
FILE *fh);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUTF8FileHandleForPrincipals(JSContext *cx, JSObject *obj,
const char *filename, FILE *fh,
JSPrincipals *principals);
extern JS_PUBLIC_API(JSScript *)
JS_CompileUTF8FileHandleForPrincipalsVersion(JSContext *cx, JSObject *obj,
const char *filename, FILE *fh,
JSPrincipals *principals,
JSVersion version);
extern JS_PUBLIC_API(JSObject *)
JS_GetGlobalFromScript(JSScript *script);
extern JS_PUBLIC_API(JSFunction *)
JS_CompileFunction(JSContext *cx, JSObject *obj, const char *name,
unsigned nargs, const char **argnames,
const char *bytes, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSFunction *)
JS_CompileFunctionForPrincipals(JSContext *cx, JSObject *obj,
JSPrincipals *principals, const char *name,
unsigned nargs, const char **argnames,
const char *bytes, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSFunction *)
JS_CompileUCFunction(JSContext *cx, JSObject *obj, const char *name,
unsigned nargs, const char **argnames,
const jschar *chars, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSFunction *)
JS_CompileUCFunctionForPrincipals(JSContext *cx, JSObject *obj,
JSPrincipals *principals, const char *name,
unsigned nargs, const char **argnames,
const jschar *chars, size_t length,
const char *filename, unsigned lineno);
extern JS_PUBLIC_API(JSFunction *)
JS_CompileUCFunctionForPrincipalsVersion(JSContext *cx, JSObject *obj,
JSPrincipals *principals, const char *name,
unsigned nargs, const char **argnames,
const jschar *chars, size_t length,
const char *filename, unsigned lineno,
JSVersion version);
#ifdef __cplusplus
JS_END_EXTERN_C
namespace JS {
/* Options for JavaScript compilation. */
struct JS_PUBLIC_API(CompileOptions) {
JSPrincipals *principals;
JSPrincipals *originPrincipals;
JSVersion version;
bool versionSet;
bool utf8;
const char *filename;
unsigned lineno;
bool compileAndGo;
bool noScriptRval;
bool selfHostingMode;
enum SourcePolicy {
NO_SOURCE,
LAZY_SOURCE,
SAVE_SOURCE
} sourcePolicy;
explicit CompileOptions(JSContext *cx);
CompileOptions &setPrincipals(JSPrincipals *p) { principals = p; return *this; }
CompileOptions &setOriginPrincipals(JSPrincipals *p) { originPrincipals = p; return *this; }
CompileOptions &setVersion(JSVersion v) { version = v; versionSet = true; return *this; }
CompileOptions &setUTF8(bool u) { utf8 = u; return *this; }
CompileOptions &setFileAndLine(const char *f, unsigned l) {
filename = f; lineno = l; return *this;
}
CompileOptions &setCompileAndGo(bool cng) { compileAndGo = cng; return *this; }
CompileOptions &setNoScriptRval(bool nsr) { noScriptRval = nsr; return *this; }
CompileOptions &setSelfHostingMode(bool shm) { selfHostingMode = shm; return *this; }
CompileOptions &setSourcePolicy(SourcePolicy sp) { sourcePolicy = sp; return *this; }
};
extern JS_PUBLIC_API(JSScript *)
Compile(JSContext *cx, JSHandleObject obj, CompileOptions options,
const char *bytes, size_t length);
extern JS_PUBLIC_API(JSScript *)
Compile(JSContext *cx, JSHandleObject obj, CompileOptions options,
const jschar *chars, size_t length);
extern JS_PUBLIC_API(JSScript *)
Compile(JSContext *cx, JSHandleObject obj, CompileOptions options, FILE *file);
extern JS_PUBLIC_API(JSScript *)
Compile(JSContext *cx, JSHandleObject obj, CompileOptions options, const char *filename);
extern JS_PUBLIC_API(JSFunction *)
CompileFunction(JSContext *cx, JSHandleObject obj, CompileOptions options,
const char *name, unsigned nargs, const char **argnames,
const char *bytes, size_t length);
extern JS_PUBLIC_API(JSFunction *)
CompileFunction(JSContext *cx, JSHandleObject obj, CompileOptions options,
const char *name, unsigned nargs, const char **argnames,
const jschar *chars, size_t length);
} /* namespace JS */
JS_BEGIN_EXTERN_C
#endif /* __cplusplus */
extern JS_PUBLIC_API(JSString *)
JS_DecompileScript(JSContext *cx, JSScript *script, const char *name, unsigned indent);
/*
* API extension: OR this into indent to avoid pretty-printing the decompiled
* source resulting from JS_DecompileFunction{,Body}.
*/
#define JS_DONT_PRETTY_PRINT ((unsigned)0x8000)
extern JS_PUBLIC_API(JSString *)
JS_DecompileFunction(JSContext *cx, JSFunction *fun, unsigned indent);
extern JS_PUBLIC_API(JSString *)
JS_DecompileFunctionBody(JSContext *cx, JSFunction *fun, unsigned indent);
/*
* NB: JS_ExecuteScript and the JS_Evaluate*Script* quadruplets use the obj
* parameter as the initial scope chain header, the 'this' keyword value, and
* the variables object (ECMA parlance for where 'var' and 'function' bind
* names) of the execution context for script.
*
* Using obj as the variables object is problematic if obj's parent (which is
* the scope chain link; see JS_SetParent and JS_NewObject) is not null: in
* this case, variables created by 'var x = 0', e.g., go in obj, but variables
* created by assignment to an unbound id, 'x = 0', go in the last object on
* the scope chain linked by parent.
*
* ECMA calls that last scoping object the "global object", but note that many
* embeddings have several such objects. ECMA requires that "global code" be
* executed with the variables object equal to this global object. But these
* JS API entry points provide freedom to execute code against a "sub-global",
* i.e., a parented or scoped object, in which case the variables object will
* differ from the last object on the scope chain, resulting in confusing and
* non-ECMA explicit vs. implicit variable creation.
*
* Caveat embedders: unless you already depend on this buggy variables object
* binding behavior, you should call JS_SetOptions(cx, JSOPTION_VAROBJFIX) or
* JS_SetOptions(cx, JS_GetOptions(cx) | JSOPTION_VAROBJFIX) -- the latter if
* someone may have set other options on cx already -- for each context in the
* application, if you pass parented objects as the obj parameter, or may ever
* pass such objects in the future.
*
* Why a runtime option? The alternative is to add six or so new API entry
* points with signatures matching the following six, and that doesn't seem
* worth the code bloat cost. Such new entry points would probably have less
* obvious names, too, so would not tend to be used. The JS_SetOption call,
* OTOH, can be more easily hacked into existing code that does not depend on
* the bug; such code can continue to use the familiar JS_EvaluateScript,
* etc., entry points.
*/
extern JS_PUBLIC_API(JSBool)
JS_ExecuteScript(JSContext *cx, JSObject *obj, JSScript *script, jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_ExecuteScriptVersion(JSContext *cx, JSObject *obj, JSScript *script, jsval *rval,
JSVersion version);
/*
* Execute either the function-defining prolog of a script, or the script's
* main body, but not both.
*/
typedef enum JSExecPart { JSEXEC_PROLOG, JSEXEC_MAIN } JSExecPart;
extern JS_PUBLIC_API(JSBool)
JS_EvaluateScript(JSContext *cx, JSObject *obj,
const char *bytes, unsigned length,
const char *filename, unsigned lineno,
jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_EvaluateScriptForPrincipals(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const char *bytes, unsigned length,
const char *filename, unsigned lineno,
jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_EvaluateScriptForPrincipalsVersion(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const char *bytes, unsigned length,
const char *filename, unsigned lineno,
jsval *rval, JSVersion version);
extern JS_PUBLIC_API(JSBool)
JS_EvaluateUCScript(JSContext *cx, JSObject *obj,
const jschar *chars, unsigned length,
const char *filename, unsigned lineno,
jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_EvaluateUCScriptForPrincipals(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const jschar *chars, unsigned length,
const char *filename, unsigned lineno,
jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_EvaluateUCScriptForPrincipalsVersion(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
const jschar *chars, unsigned length,
const char *filename, unsigned lineno,
jsval *rval, JSVersion version);
/*
* JSAPI clients may optionally specify the 'originPrincipals' of a script.
* A script's originPrincipals may be retrieved through the debug API (via
* JS_GetScriptOriginPrincipals) and the originPrincipals are transitively
* assigned to any nested scripts (including scripts dynamically created via
* eval and the Function constructor). If originPrincipals is null, then the
* value of principals is used as origin principals for the script.
*/
extern JS_PUBLIC_API(JSBool)
JS_EvaluateUCScriptForPrincipalsVersionOrigin(JSContext *cx, JSObject *obj,
JSPrincipals *principals,
JSPrincipals *originPrincipals,
const jschar *chars, unsigned length,
const char *filename, unsigned lineno,
jsval *rval, JSVersion version);
#ifdef __cplusplus
JS_END_EXTERN_C
namespace JS {
extern JS_PUBLIC_API(bool)
Evaluate(JSContext *cx, JSHandleObject obj, CompileOptions options,
const jschar *chars, size_t length, jsval *rval);
extern JS_PUBLIC_API(bool)
Evaluate(JSContext *cx, JSHandleObject obj, CompileOptions options,
const char *bytes, size_t length, jsval *rval);
extern JS_PUBLIC_API(bool)
Evaluate(JSContext *cx, JSHandleObject obj, CompileOptions options,
const char *filename, jsval *rval);
} /* namespace JS */
JS_BEGIN_EXTERN_C
#endif
extern JS_PUBLIC_API(JSBool)
JS_CallFunction(JSContext *cx, JSObject *obj, JSFunction *fun, unsigned argc,
jsval *argv, jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_CallFunctionName(JSContext *cx, JSObject *obj, const char *name, unsigned argc,
jsval *argv, jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_CallFunctionValue(JSContext *cx, JSObject *obj, jsval fval, unsigned argc,
jsval *argv, jsval *rval);
#ifdef __cplusplus
JS_END_EXTERN_C
namespace JS {
static inline bool
Call(JSContext *cx, JSObject *thisObj, JSFunction *fun, unsigned argc, jsval *argv, jsval *rval) {
return !!JS_CallFunction(cx, thisObj, fun, argc, argv, rval);
}
static inline bool
Call(JSContext *cx, JSObject *thisObj, const char *name, unsigned argc, jsval *argv, jsval *rval) {
return !!JS_CallFunctionName(cx, thisObj, name, argc, argv, rval);
}
static inline bool
Call(JSContext *cx, JSObject *thisObj, jsval fun, unsigned argc, jsval *argv, jsval *rval) {
return !!JS_CallFunctionValue(cx, thisObj, fun, argc, argv, rval);
}
extern JS_PUBLIC_API(bool)
Call(JSContext *cx, jsval thisv, jsval fun, unsigned argc, jsval *argv, jsval *rval);
static inline bool
Call(JSContext *cx, jsval thisv, JSObject *funObj, unsigned argc, jsval *argv, jsval *rval) {
return Call(cx, thisv, OBJECT_TO_JSVAL(funObj), argc, argv, rval);
}
} /* namespace JS */
JS_BEGIN_EXTERN_C
#endif /* __cplusplus */
/*
* These functions allow setting an operation callback that will be called
* from the JS thread some time after any thread triggered the callback using
* JS_TriggerOperationCallback(rt).
*
* To schedule the GC and for other activities the engine internally triggers
* operation callbacks. The embedding should thus not rely on callbacks being
* triggered through the external API only.
*
* Important note: Additional callbacks can occur inside the callback handler
* if it re-enters the JS engine. The embedding must ensure that the callback
* is disconnected before attempting such re-entry.
*/
extern JS_PUBLIC_API(JSOperationCallback)
JS_SetOperationCallback(JSContext *cx, JSOperationCallback callback);
extern JS_PUBLIC_API(JSOperationCallback)
JS_GetOperationCallback(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_TriggerOperationCallback(JSRuntime *rt);
extern JS_PUBLIC_API(JSBool)
JS_IsRunning(JSContext *cx);
/*
* Saving and restoring frame chains.
*
* These two functions are used to set aside cx's call stack while that stack
* is inactive. After a call to JS_SaveFrameChain, it looks as if there is no
* code running on cx. Before calling JS_RestoreFrameChain, cx's call stack
* must be balanced and all nested calls to JS_SaveFrameChain must have had
* matching JS_RestoreFrameChain calls.
*
* JS_SaveFrameChain deals with cx not having any code running on it.
*/
extern JS_PUBLIC_API(JSBool)
JS_SaveFrameChain(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_RestoreFrameChain(JSContext *cx);
#ifdef MOZ_TRACE_JSCALLS
/*
* The callback is expected to be quick and noninvasive. It should not
* trigger interrupts, turn on debugging, or produce uncaught JS
* exceptions. The state of the stack and registers in the context
* cannot be relied upon, since this callback may be invoked directly
* from either JIT. The 'entering' field means we are entering a
* function if it is positive, leaving a function if it is zero or
* negative.
*/
extern JS_PUBLIC_API(void)
JS_SetFunctionCallback(JSContext *cx, JSFunctionCallback fcb);
extern JS_PUBLIC_API(JSFunctionCallback)
JS_GetFunctionCallback(JSContext *cx);
#endif /* MOZ_TRACE_JSCALLS */
/************************************************************************/
/*
* Strings.
*
* NB: JS_NewUCString takes ownership of bytes on success, avoiding a copy;
* but on error (signified by null return), it leaves chars owned by the
* caller. So the caller must free bytes in the error case, if it has no use
* for them. In contrast, all the JS_New*StringCopy* functions do not take
* ownership of the character memory passed to them -- they copy it.
*/
extern JS_PUBLIC_API(JSString *)
JS_NewStringCopyN(JSContext *cx, const char *s, size_t n);
extern JS_PUBLIC_API(JSString *)
JS_NewStringCopyZ(JSContext *cx, const char *s);
extern JS_PUBLIC_API(JSString *)
JS_InternJSString(JSContext *cx, JSString *str);
extern JS_PUBLIC_API(JSString *)
JS_InternStringN(JSContext *cx, const char *s, size_t length);
extern JS_PUBLIC_API(JSString *)
JS_InternString(JSContext *cx, const char *s);
extern JS_PUBLIC_API(JSString *)
JS_NewUCString(JSContext *cx, jschar *chars, size_t length);
extern JS_PUBLIC_API(JSString *)
JS_NewUCStringCopyN(JSContext *cx, const jschar *s, size_t n);
extern JS_PUBLIC_API(JSString *)
JS_NewUCStringCopyZ(JSContext *cx, const jschar *s);
extern JS_PUBLIC_API(JSString *)
JS_InternUCStringN(JSContext *cx, const jschar *s, size_t length);
extern JS_PUBLIC_API(JSString *)
JS_InternUCString(JSContext *cx, const jschar *s);
extern JS_PUBLIC_API(JSBool)
JS_CompareStrings(JSContext *cx, JSString *str1, JSString *str2, int32_t *result);
extern JS_PUBLIC_API(JSBool)
JS_StringEqualsAscii(JSContext *cx, JSString *str, const char *asciiBytes, JSBool *match);
extern JS_PUBLIC_API(size_t)
JS_PutEscapedString(JSContext *cx, char *buffer, size_t size, JSString *str, char quote);
extern JS_PUBLIC_API(JSBool)
JS_FileEscapedString(FILE *fp, JSString *str, char quote);
/*
* Extracting string characters and length.
*
* While getting the length of a string is infallible, getting the chars can
* fail. As indicated by the lack of a JSContext parameter, there are two
* special cases where getting the chars is infallible:
*
* The first case is interned strings, i.e., strings from JS_InternString or
* JSID_TO_STRING(id), using JS_GetInternedStringChars*.
*
* The second case is "flat" strings that have been explicitly prepared in a
* fallible context by JS_FlattenString. To catch errors, a separate opaque
* JSFlatString type is returned by JS_FlattenString and expected by
* JS_GetFlatStringChars. Note, though, that this is purely a syntactic
* distinction: the input and output of JS_FlattenString are the same actual
* GC-thing so only one needs to be rooted. If a JSString is known to be flat,
* JS_ASSERT_STRING_IS_FLAT can be used to make a debug-checked cast. Example:
*
* // in a fallible context
* JSFlatString *fstr = JS_FlattenString(cx, str);
* if (!fstr)
* return JS_FALSE;
* JS_ASSERT(fstr == JS_ASSERT_STRING_IS_FLAT(str));
*
* // in an infallible context, for the same 'str'
* const jschar *chars = JS_GetFlatStringChars(fstr)
* JS_ASSERT(chars);
*
* The CharsZ APIs guarantee that the returned array has a null character at
* chars[length]. This can require additional copying so clients should prefer
* APIs without CharsZ if possible. The infallible functions also return
* null-terminated arrays. (There is no additional cost or non-Z alternative
* for the infallible functions, so 'Z' is left out of the identifier.)
*/
extern JS_PUBLIC_API(size_t)
JS_GetStringLength(JSString *str);
extern JS_PUBLIC_API(const jschar *)
JS_GetStringCharsAndLength(JSContext *cx, JSString *str, size_t *length);
extern JS_PUBLIC_API(const jschar *)
JS_GetInternedStringChars(JSString *str);
extern JS_PUBLIC_API(const jschar *)
JS_GetInternedStringCharsAndLength(JSString *str, size_t *length);
extern JS_PUBLIC_API(const jschar *)
JS_GetStringCharsZ(JSContext *cx, JSString *str);
extern JS_PUBLIC_API(const jschar *)
JS_GetStringCharsZAndLength(JSContext *cx, JSString *str, size_t *length);
extern JS_PUBLIC_API(JSFlatString *)
JS_FlattenString(JSContext *cx, JSString *str);
extern JS_PUBLIC_API(const jschar *)
JS_GetFlatStringChars(JSFlatString *str);
static JS_ALWAYS_INLINE JSFlatString *
JSID_TO_FLAT_STRING(jsid id)
{
JS_ASSERT(JSID_IS_STRING(id));
return (JSFlatString *)(JSID_BITS(id));
}
static JS_ALWAYS_INLINE JSFlatString *
JS_ASSERT_STRING_IS_FLAT(JSString *str)
{
JS_ASSERT(JS_GetFlatStringChars((JSFlatString *)str));
return (JSFlatString *)str;
}
static JS_ALWAYS_INLINE JSString *
JS_FORGET_STRING_FLATNESS(JSFlatString *fstr)
{
return (JSString *)fstr;
}
/*
* Additional APIs that avoid fallibility when given a flat string.
*/
extern JS_PUBLIC_API(JSBool)
JS_FlatStringEqualsAscii(JSFlatString *str, const char *asciiBytes);
extern JS_PUBLIC_API(size_t)
JS_PutEscapedFlatString(char *buffer, size_t size, JSFlatString *str, char quote);
/*
* This function is now obsolete and behaves the same as JS_NewUCString. Use
* JS_NewUCString instead.
*/
extern JS_PUBLIC_API(JSString *)
JS_NewGrowableString(JSContext *cx, jschar *chars, size_t length);
/*
* Create a dependent string, i.e., a string that owns no character storage,
* but that refers to a slice of another string's chars. Dependent strings
* are mutable by definition, so the thread safety comments above apply.
*/
extern JS_PUBLIC_API(JSString *)
JS_NewDependentString(JSContext *cx, JSString *str, size_t start,
size_t length);
/*
* Concatenate two strings, possibly resulting in a rope.
* See above for thread safety comments.
*/
extern JS_PUBLIC_API(JSString *)
JS_ConcatStrings(JSContext *cx, JSString *left, JSString *right);
/*
* Convert a dependent string into an independent one. This function does not
* change the string's mutability, so the thread safety comments above apply.
*/
extern JS_PUBLIC_API(const jschar *)
JS_UndependString(JSContext *cx, JSString *str);
/*
* Return JS_TRUE if C (char []) strings passed via the API and internally
* are UTF-8.
*/
JS_PUBLIC_API(JSBool)
JS_CStringsAreUTF8(void);
/*
* Update the value to be returned by JS_CStringsAreUTF8(). Once set, it
* can never be changed. This API must be called before the first call to
* JS_NewRuntime.
*/
JS_PUBLIC_API(void)
JS_SetCStringsAreUTF8(void);
/*
* Character encoding support.
*
* For both JS_EncodeCharacters and JS_DecodeBytes, set *dstlenp to the size
* of the destination buffer before the call; on return, *dstlenp contains the
* number of bytes (JS_EncodeCharacters) or jschars (JS_DecodeBytes) actually
* stored. To determine the necessary destination buffer size, make a sizing
* call that passes NULL for dst.
*
* On errors, the functions report the error. In that case, *dstlenp contains
* the number of characters or bytes transferred so far. If cx is NULL, no
* error is reported on failure, and the functions simply return JS_FALSE.
*
* NB: Neither function stores an additional zero byte or jschar after the
* transcoded string.
*
* If JS_CStringsAreUTF8() is true then JS_EncodeCharacters encodes to
* UTF-8, and JS_DecodeBytes decodes from UTF-8, which may create additional
* errors if the character sequence is malformed. If UTF-8 support is
* disabled, the functions deflate and inflate, respectively.
*
* JS_DecodeUTF8() always behaves the same independently of JS_CStringsAreUTF8().
*/
JS_PUBLIC_API(JSBool)
JS_EncodeCharacters(JSContext *cx, const jschar *src, size_t srclen, char *dst,
size_t *dstlenp);
JS_PUBLIC_API(JSBool)
JS_DecodeBytes(JSContext *cx, const char *src, size_t srclen, jschar *dst,
size_t *dstlenp);
JS_PUBLIC_API(JSBool)
JS_DecodeUTF8(JSContext *cx, const char *src, size_t srclen, jschar *dst,
size_t *dstlenp);
/*
* A variation on JS_EncodeCharacters where a null terminated string is
* returned that you are expected to call JS_free on when done.
*/
JS_PUBLIC_API(char *)
JS_EncodeString(JSContext *cx, JSRawString str);
/*
* Get number of bytes in the string encoding (without accounting for a
* terminating zero bytes. The function returns (size_t) -1 if the string
* can not be encoded into bytes and reports an error using cx accordingly.
*/
JS_PUBLIC_API(size_t)
JS_GetStringEncodingLength(JSContext *cx, JSString *str);
/*
* Encode string into a buffer. The function does not stores an additional
* zero byte. The function returns (size_t) -1 if the string can not be
* encoded into bytes with no error reported. Otherwise it returns the number
* of bytes that are necessary to encode the string. If that exceeds the
* length parameter, the string will be cut and only length bytes will be
* written into the buffer.
*
* If JS_CStringsAreUTF8() is true, the string does not fit into the buffer
* and the the first length bytes ends in the middle of utf-8 encoding for
* some character, then such partial utf-8 encoding is replaced by zero bytes.
* This way the result always represents the valid UTF-8 sequence.
*/
JS_PUBLIC_API(size_t)
JS_EncodeStringToBuffer(JSString *str, char *buffer, size_t length);
#ifdef __cplusplus
class JSAutoByteString {
public:
JSAutoByteString(JSContext *cx, JSString *str JS_GUARD_OBJECT_NOTIFIER_PARAM)
: mBytes(JS_EncodeString(cx, str)) {
JS_ASSERT(cx);
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
JSAutoByteString(JS_GUARD_OBJECT_NOTIFIER_PARAM0)
: mBytes(NULL) {
JS_GUARD_OBJECT_NOTIFIER_INIT;
}
~JSAutoByteString() {
js_free(mBytes);
}
/* Take ownership of the given byte array. */
void initBytes(char *bytes) {
JS_ASSERT(!mBytes);
mBytes = bytes;
}
char *encode(JSContext *cx, JSString *str) {
JS_ASSERT(!mBytes);
JS_ASSERT(cx);
mBytes = JS_EncodeString(cx, str);
return mBytes;
}
void clear() {
js_free(mBytes);
mBytes = NULL;
}
char *ptr() const {
return mBytes;
}
bool operator!() const {
return !mBytes;
}
private:
char *mBytes;
JS_DECL_USE_GUARD_OBJECT_NOTIFIER
/* Copy and assignment are not supported. */
JSAutoByteString(const JSAutoByteString &another);
JSAutoByteString &operator=(const JSAutoByteString &another);
};
#endif
/************************************************************************/
/*
* JSON functions
*/
typedef JSBool (* JSONWriteCallback)(const jschar *buf, uint32_t len, void *data);
/*
* JSON.stringify as specified by ES5.
*/
JS_PUBLIC_API(JSBool)
JS_Stringify(JSContext *cx, jsval *vp, JSObject *replacer, jsval space,
JSONWriteCallback callback, void *data);
/*
* JSON.parse as specified by ES5.
*/
JS_PUBLIC_API(JSBool)
JS_ParseJSON(JSContext *cx, const jschar *chars, uint32_t len, jsval *vp);
JS_PUBLIC_API(JSBool)
JS_ParseJSONWithReviver(JSContext *cx, const jschar *chars, uint32_t len, jsval reviver,
jsval *vp);
/************************************************************************/
/* API for the HTML5 internal structured cloning algorithm. */
/* The maximum supported structured-clone serialization format version. */
#define JS_STRUCTURED_CLONE_VERSION 1
struct JSStructuredCloneCallbacks {
ReadStructuredCloneOp read;
WriteStructuredCloneOp write;
StructuredCloneErrorOp reportError;
};
/* Note: if the *data contains transferable objects, it can be read
* only once */
JS_PUBLIC_API(JSBool)
JS_ReadStructuredClone(JSContext *cx, uint64_t *data, size_t nbytes,
uint32_t version, jsval *vp,
const JSStructuredCloneCallbacks *optionalCallbacks,
void *closure);
/* Note: On success, the caller is responsible for calling
* JS_ClearStructuredClone(*datap, nbytesp). */
JS_PUBLIC_API(JSBool)
JS_WriteStructuredClone(JSContext *cx, jsval v, uint64_t **datap, size_t *nbytesp,
const JSStructuredCloneCallbacks *optionalCallbacks,
void *closure, jsval transferable);
JS_PUBLIC_API(JSBool)
JS_ClearStructuredClone(const uint64_t *data, size_t nbytes);
JS_PUBLIC_API(JSBool)
JS_StructuredCloneHasTransferables(const uint64_t *data, size_t nbytes,
JSBool *hasTransferable);
JS_PUBLIC_API(JSBool)
JS_StructuredClone(JSContext *cx, jsval v, jsval *vp,
const JSStructuredCloneCallbacks *optionalCallbacks,
void *closure);
#ifdef __cplusplus
JS_END_EXTERN_C
/* RAII sugar for JS_WriteStructuredClone. */
class JS_PUBLIC_API(JSAutoStructuredCloneBuffer) {
uint64_t *data_;
size_t nbytes_;
uint32_t version_;
public:
JSAutoStructuredCloneBuffer()
: data_(NULL), nbytes_(0), version_(JS_STRUCTURED_CLONE_VERSION) {}
~JSAutoStructuredCloneBuffer() { clear(); }
uint64_t *data() const { return data_; }
size_t nbytes() const { return nbytes_; }
void clear();
/* Copy some memory. It will be automatically freed by the destructor. */
bool copy(const uint64_t *data, size_t nbytes, uint32_t version=JS_STRUCTURED_CLONE_VERSION);
/*
* Adopt some memory. It will be automatically freed by the destructor.
* data must have been allocated by the JS engine (e.g., extracted via
* JSAutoStructuredCloneBuffer::steal).
*/
void adopt(uint64_t *data, size_t nbytes, uint32_t version=JS_STRUCTURED_CLONE_VERSION);
/*
* Remove the buffer so that it will not be automatically freed.
* After this, the caller is responsible for feeding the memory back to
* JSAutoStructuredCloneBuffer::adopt.
*/
void steal(uint64_t **datap, size_t *nbytesp, uint32_t *versionp=NULL);
bool read(JSContext *cx, jsval *vp,
const JSStructuredCloneCallbacks *optionalCallbacks=NULL,
void *closure=NULL);
bool write(JSContext *cx, jsval v,
const JSStructuredCloneCallbacks *optionalCallbacks=NULL,
void *closure=NULL);
bool write(JSContext *cx, jsval v,
jsval transferable,
const JSStructuredCloneCallbacks *optionalCallbacks=NULL,
void *closure=NULL);
/**
* Swap ownership with another JSAutoStructuredCloneBuffer.
*/
void swap(JSAutoStructuredCloneBuffer &other);
private:
/* Copy and assignment are not supported. */
JSAutoStructuredCloneBuffer(const JSAutoStructuredCloneBuffer &other);
JSAutoStructuredCloneBuffer &operator=(const JSAutoStructuredCloneBuffer &other);
};
JS_BEGIN_EXTERN_C
#endif
/* API for implementing custom serialization behavior (for ImageData, File, etc.) */
/* The range of tag values the application may use for its own custom object types. */
#define JS_SCTAG_USER_MIN ((uint32_t) 0xFFFF8000)
#define JS_SCTAG_USER_MAX ((uint32_t) 0xFFFFFFFF)
#define JS_SCERR_RECURSION 0
#define JS_SCERR_TRANSFERABLE 1
JS_PUBLIC_API(void)
JS_SetStructuredCloneCallbacks(JSRuntime *rt, const JSStructuredCloneCallbacks *callbacks);
JS_PUBLIC_API(JSBool)
JS_ReadUint32Pair(JSStructuredCloneReader *r, uint32_t *p1, uint32_t *p2);
JS_PUBLIC_API(JSBool)
JS_ReadBytes(JSStructuredCloneReader *r, void *p, size_t len);
JS_PUBLIC_API(JSBool)
JS_ReadTypedArray(JSStructuredCloneReader *r, jsval *vp);
JS_PUBLIC_API(JSBool)
JS_WriteUint32Pair(JSStructuredCloneWriter *w, uint32_t tag, uint32_t data);
JS_PUBLIC_API(JSBool)
JS_WriteBytes(JSStructuredCloneWriter *w, const void *p, size_t len);
JS_PUBLIC_API(JSBool)
JS_WriteTypedArray(JSStructuredCloneWriter *w, jsval v);
/************************************************************************/
/*
* Locale specific string conversion and error message callbacks.
*/
struct JSLocaleCallbacks {
JSLocaleToUpperCase localeToUpperCase;
JSLocaleToLowerCase localeToLowerCase;
JSLocaleCompare localeCompare;
JSLocaleToUnicode localeToUnicode;
JSErrorCallback localeGetErrorMessage;
};
/*
* Establish locale callbacks. The pointer must persist as long as the
* JSContext. Passing NULL restores the default behaviour.
*/
extern JS_PUBLIC_API(void)
JS_SetLocaleCallbacks(JSContext *cx, JSLocaleCallbacks *callbacks);
/*
* Return the address of the current locale callbacks struct, which may
* be NULL.
*/
extern JS_PUBLIC_API(JSLocaleCallbacks *)
JS_GetLocaleCallbacks(JSContext *cx);
/************************************************************************/
/*
* Error reporting.
*/
/*
* Report an exception represented by the sprintf-like conversion of format
* and its arguments. This exception message string is passed to a pre-set
* JSErrorReporter function (set by JS_SetErrorReporter).
*/
extern JS_PUBLIC_API(void)
JS_ReportError(JSContext *cx, const char *format, ...);
/*
* Use an errorNumber to retrieve the format string, args are char *
*/
extern JS_PUBLIC_API(void)
JS_ReportErrorNumber(JSContext *cx, JSErrorCallback errorCallback,
void *userRef, const unsigned errorNumber, ...);
#ifdef va_start
extern JS_PUBLIC_API(void)
JS_ReportErrorNumberVA(JSContext *cx, JSErrorCallback errorCallback,
void *userRef, const unsigned errorNumber, va_list ap);
#endif
/*
* Use an errorNumber to retrieve the format string, args are jschar *
*/
extern JS_PUBLIC_API(void)
JS_ReportErrorNumberUC(JSContext *cx, JSErrorCallback errorCallback,
void *userRef, const unsigned errorNumber, ...);
/*
* As above, but report a warning instead (JSREPORT_IS_WARNING(report.flags)).
* Return true if there was no error trying to issue the warning, and if the
* warning was not converted into an error due to the JSOPTION_WERROR option
* being set, false otherwise.
*/
extern JS_PUBLIC_API(JSBool)
JS_ReportWarning(JSContext *cx, const char *format, ...);
extern JS_PUBLIC_API(JSBool)
JS_ReportErrorFlagsAndNumber(JSContext *cx, unsigned flags,
JSErrorCallback errorCallback, void *userRef,
const unsigned errorNumber, ...);
extern JS_PUBLIC_API(JSBool)
JS_ReportErrorFlagsAndNumberUC(JSContext *cx, unsigned flags,
JSErrorCallback errorCallback, void *userRef,
const unsigned errorNumber, ...);
/*
* Complain when out of memory.
*/
extern JS_PUBLIC_API(void)
JS_ReportOutOfMemory(JSContext *cx);
/*
* Complain when an allocation size overflows the maximum supported limit.
*/
extern JS_PUBLIC_API(void)
JS_ReportAllocationOverflow(JSContext *cx);
struct JSErrorReport {
const char *filename; /* source file name, URL, etc., or null */
JSPrincipals *originPrincipals; /* see 'originPrincipals' comment above */
unsigned lineno; /* source line number */
const char *linebuf; /* offending source line without final \n */
const char *tokenptr; /* pointer to error token in linebuf */
const jschar *uclinebuf; /* unicode (original) line buffer */
const jschar *uctokenptr; /* unicode (original) token pointer */
unsigned flags; /* error/warning, etc. */
unsigned errorNumber; /* the error number, e.g. see js.msg */
const jschar *ucmessage; /* the (default) error message */
const jschar **messageArgs; /* arguments for the error message */
int16_t exnType; /* One of the JSExnType constants */
unsigned column; /* zero-based column index in line */
};
/*
* JSErrorReport flag values. These may be freely composed.
*/
#define JSREPORT_ERROR 0x0 /* pseudo-flag for default case */
#define JSREPORT_WARNING 0x1 /* reported via JS_ReportWarning */
#define JSREPORT_EXCEPTION 0x2 /* exception was thrown */
#define JSREPORT_STRICT 0x4 /* error or warning due to strict option */
/*
* This condition is an error in strict mode code, a warning if
* JS_HAS_STRICT_OPTION(cx), and otherwise should not be reported at
* all. We check the strictness of the context's top frame's script;
* where that isn't appropriate, the caller should do the right checks
* itself instead of using this flag.
*/
#define JSREPORT_STRICT_MODE_ERROR 0x8
/*
* If JSREPORT_EXCEPTION is set, then a JavaScript-catchable exception
* has been thrown for this runtime error, and the host should ignore it.
* Exception-aware hosts should also check for JS_IsExceptionPending if
* JS_ExecuteScript returns failure, and signal or propagate the exception, as
* appropriate.
*/
#define JSREPORT_IS_WARNING(flags) (((flags) & JSREPORT_WARNING) != 0)
#define JSREPORT_IS_EXCEPTION(flags) (((flags) & JSREPORT_EXCEPTION) != 0)
#define JSREPORT_IS_STRICT(flags) (((flags) & JSREPORT_STRICT) != 0)
#define JSREPORT_IS_STRICT_MODE_ERROR(flags) (((flags) & \
JSREPORT_STRICT_MODE_ERROR) != 0)
extern JS_PUBLIC_API(JSErrorReporter)
JS_GetErrorReporter(JSContext *cx);
extern JS_PUBLIC_API(JSErrorReporter)
JS_SetErrorReporter(JSContext *cx, JSErrorReporter er);
/************************************************************************/
/*
* Dates.
*/
extern JS_PUBLIC_API(JSObject *)
JS_NewDateObject(JSContext *cx, int year, int mon, int mday, int hour, int min, int sec);
extern JS_PUBLIC_API(JSObject *)
JS_NewDateObjectMsec(JSContext *cx, double msec);
/*
* Infallible predicate to test whether obj is a date object.
*/
extern JS_PUBLIC_API(JSBool)
JS_ObjectIsDate(JSContext *cx, JSRawObject obj);
/*
* Clears the cache of calculated local time from each Date object.
* Call to propagate a system timezone change.
*/
extern JS_PUBLIC_API(void)
JS_ClearDateCaches(JSContext *cx);
/************************************************************************/
/*
* Regular Expressions.
*/
#define JSREG_FOLD 0x01 /* fold uppercase to lowercase */
#define JSREG_GLOB 0x02 /* global exec, creates array of matches */
#define JSREG_MULTILINE 0x04 /* treat ^ and $ as begin and end of line */
#define JSREG_STICKY 0x08 /* only match starting at lastIndex */
extern JS_PUBLIC_API(JSObject *)
JS_NewRegExpObject(JSContext *cx, JSObject *obj, char *bytes, size_t length, unsigned flags);
extern JS_PUBLIC_API(JSObject *)
JS_NewUCRegExpObject(JSContext *cx, JSObject *obj, jschar *chars, size_t length, unsigned flags);
extern JS_PUBLIC_API(void)
JS_SetRegExpInput(JSContext *cx, JSObject *obj, JSString *input, JSBool multiline);
extern JS_PUBLIC_API(void)
JS_ClearRegExpStatics(JSContext *cx, JSObject *obj);
extern JS_PUBLIC_API(JSBool)
JS_ExecuteRegExp(JSContext *cx, JSObject *obj, JSObject *reobj, jschar *chars, size_t length,
size_t *indexp, JSBool test, jsval *rval);
/* RegExp interface for clients without a global object. */
extern JS_PUBLIC_API(JSObject *)
JS_NewRegExpObjectNoStatics(JSContext *cx, char *bytes, size_t length, unsigned flags);
extern JS_PUBLIC_API(JSObject *)
JS_NewUCRegExpObjectNoStatics(JSContext *cx, jschar *chars, size_t length, unsigned flags);
extern JS_PUBLIC_API(JSBool)
JS_ExecuteRegExpNoStatics(JSContext *cx, JSObject *reobj, jschar *chars, size_t length,
size_t *indexp, JSBool test, jsval *rval);
extern JS_PUBLIC_API(JSBool)
JS_ObjectIsRegExp(JSContext *cx, JSObject *obj);
extern JS_PUBLIC_API(unsigned)
JS_GetRegExpFlags(JSContext *cx, JSObject *obj);
extern JS_PUBLIC_API(JSString *)
JS_GetRegExpSource(JSContext *cx, JSObject *obj);
/************************************************************************/
extern JS_PUBLIC_API(JSBool)
JS_IsExceptionPending(JSContext *cx);
extern JS_PUBLIC_API(JSBool)
JS_GetPendingException(JSContext *cx, jsval *vp);
extern JS_PUBLIC_API(void)
JS_SetPendingException(JSContext *cx, jsval v);
extern JS_PUBLIC_API(void)
JS_ClearPendingException(JSContext *cx);
extern JS_PUBLIC_API(JSBool)
JS_ReportPendingException(JSContext *cx);
/*
* Save the current exception state. This takes a snapshot of cx's current
* exception state without making any change to that state.
*
* The returned state pointer MUST be passed later to JS_RestoreExceptionState
* (to restore that saved state, overriding any more recent state) or else to
* JS_DropExceptionState (to free the state struct in case it is not correct
* or desirable to restore it). Both Restore and Drop free the state struct,
* so callers must stop using the pointer returned from Save after calling the
* Release or Drop API.
*/
extern JS_PUBLIC_API(JSExceptionState *)
JS_SaveExceptionState(JSContext *cx);
extern JS_PUBLIC_API(void)
JS_RestoreExceptionState(JSContext *cx, JSExceptionState *state);
extern JS_PUBLIC_API(void)
JS_DropExceptionState(JSContext *cx, JSExceptionState *state);
/*
* If the given value is an exception object that originated from an error,
* the exception will contain an error report struct, and this API will return
* the address of that struct. Otherwise, it returns NULL. The lifetime of
* the error report struct that might be returned is the same as the lifetime
* of the exception object.
*/
extern JS_PUBLIC_API(JSErrorReport *)
JS_ErrorFromException(JSContext *cx, jsval v);
/*
* Given a reported error's message and JSErrorReport struct pointer, throw
* the corresponding exception on cx.
*/
extern JS_PUBLIC_API(JSBool)
JS_ThrowReportedError(JSContext *cx, const char *message,
JSErrorReport *reportp);
/*
* Throws a StopIteration exception on cx.
*/
extern JS_PUBLIC_API(JSBool)
JS_ThrowStopIteration(JSContext *cx);
extern JS_PUBLIC_API(intptr_t)
JS_GetCurrentThread();
/*
* A JS runtime always has an "owner thread". The owner thread is set when the
* runtime is created (to the current thread) and practically all entry points
* into the JS engine check that a runtime (or anything contained in the
* runtime: context, compartment, object, etc) is only touched by its owner
* thread. Embeddings may check this invariant outside the JS engine by calling
* JS_AbortIfWrongThread (which will abort if not on the owner thread, even for
* non-debug builds).
*
* It is possible to "move" a runtime between threads. This is accomplished by
* calling JS_ClearRuntimeThread on a runtime's owner thread and then calling
* JS_SetRuntimeThread on the new owner thread. The runtime must not be
* accessed between JS_ClearRuntimeThread and JS_SetRuntimeThread. Also, the
* caller is responsible for synchronizing the calls to Set/Clear.
*/
extern JS_PUBLIC_API(void)
JS_AbortIfWrongThread(JSRuntime *rt);
extern JS_PUBLIC_API(void)
JS_ClearRuntimeThread(JSRuntime *rt);
extern JS_PUBLIC_API(void)
JS_SetRuntimeThread(JSRuntime *rt);
#ifdef __cplusplus
JS_END_EXTERN_C
class JSAutoSetRuntimeThread
{
JSRuntime *runtime;
public:
JSAutoSetRuntimeThread(JSRuntime *runtime) : runtime(runtime) {
JS_SetRuntimeThread(runtime);
}
~JSAutoSetRuntimeThread() {
JS_ClearRuntimeThread(runtime);
}
};
JS_BEGIN_EXTERN_C
#endif
/************************************************************************/
/*
* JS_IsConstructing must be called from within a native given the
* native's original cx and vp arguments. If JS_IsConstructing is true,
* JS_THIS must not be used; the constructor should construct and return a
* new object. Otherwise, the native is called as an ordinary function and
* JS_THIS may be used.
*/
static JS_ALWAYS_INLINE JSBool
JS_IsConstructing(JSContext *cx, const jsval *vp)
{
#ifdef DEBUG
JSObject *callee = JSVAL_TO_OBJECT(JS_CALLEE(cx, vp));
if (JS_ObjectIsFunction(cx, callee)) {
JSFunction *fun = JS_ValueToFunction(cx, JS_CALLEE(cx, vp));
JS_ASSERT((JS_GetFunctionFlags(fun) & JSFUN_CONSTRUCTOR) != 0);
} else {
JS_ASSERT(JS_GetClass(callee)->construct != NULL);
}
#else
(void)cx;
#endif
return JSVAL_IS_MAGIC_IMPL(JSVAL_TO_IMPL(vp[1]));
}
/*
* A constructor can request that the JS engine create a default new 'this'
* object of the given class, using the callee to determine parentage and
* [[Prototype]].
*/
extern JS_PUBLIC_API(JSObject *)
JS_NewObjectForConstructor(JSContext *cx, JSClass *clasp, const jsval *vp);
/************************************************************************/
#ifdef JS_GC_ZEAL
#define JS_DEFAULT_ZEAL_FREQ 100
extern JS_PUBLIC_API(void)
JS_SetGCZeal(JSContext *cx, uint8_t zeal, uint32_t frequency);
extern JS_PUBLIC_API(void)
JS_ScheduleGC(JSContext *cx, uint32_t count);
#endif
/*
* Convert a uint32_t index into a jsid.
*/
extern JS_PUBLIC_API(JSBool)
JS_IndexToId(JSContext *cx, uint32_t index, jsid *id);
/*
* Test if the given string is a valid ECMAScript identifier
*/
extern JS_PUBLIC_API(JSBool)
JS_IsIdentifier(JSContext *cx, JSString *str, JSBool *isIdentifier);
/*
* Return the current script and line number of the most currently running
* frame. Returns true if a scripted frame was found, false otherwise.
*/
extern JS_PUBLIC_API(JSBool)
JS_DescribeScriptedCaller(JSContext *cx, JSScript **script, unsigned *lineno);
/*
* Encode/Decode interpreted scripts and functions to/from memory.
*/
extern JS_PUBLIC_API(void *)
JS_EncodeScript(JSContext *cx, JSScript *script, uint32_t *lengthp);
extern JS_PUBLIC_API(void *)
JS_EncodeInterpretedFunction(JSContext *cx, JSRawObject funobj, uint32_t *lengthp);
extern JS_PUBLIC_API(JSScript *)
JS_DecodeScript(JSContext *cx, const void *data, uint32_t length,
JSPrincipals *principals, JSPrincipals *originPrincipals);
extern JS_PUBLIC_API(JSObject *)
JS_DecodeInterpretedFunction(JSContext *cx, const void *data, uint32_t length,
JSPrincipals *principals, JSPrincipals *originPrincipals);
JS_END_EXTERN_C
#endif /* jsapi_h___ */