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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* 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 vm_Scope_h
#define vm_Scope_h
#include "mozilla/Maybe.h"
#include "mozilla/Variant.h"
#include "jsobj.h"
#include "jsopcode.h"
#include "gc/Heap.h"
#include "gc/Policy.h"
#include "js/UbiNode.h"
#include "js/UniquePtr.h"
#include "vm/Xdr.h"
namespace js {
class ModuleObject;
enum class BindingKind : uint8_t
{
Import,
FormalParameter,
Var,
Let,
Const,
// So you think named lambda callee names are consts? Nope! They don't
// throw when being assigned to in sloppy mode.
NamedLambdaCallee
};
static inline bool
BindingKindIsLexical(BindingKind kind)
{
return kind == BindingKind::Let || kind == BindingKind::Const;
}
enum class ScopeKind : uint8_t
{
// FunctionScope
Function,
// VarScope
FunctionBodyVar,
ParameterExpressionVar,
// LexicalScope
Lexical,
SimpleCatch,
Catch,
NamedLambda,
StrictNamedLambda,
// WithScope
With,
// EvalScope
Eval,
StrictEval,
// GlobalScope
Global,
NonSyntactic,
// ModuleScope
Module
};
static inline bool
ScopeKindIsCatch(ScopeKind kind)
{
return kind == ScopeKind::SimpleCatch || kind == ScopeKind::Catch;
}
const char* BindingKindString(BindingKind kind);
const char* ScopeKindString(ScopeKind kind);
class BindingName
{
// A JSAtom* with its low bit used as a tag for whether it is closed over
// (i.e., exists in the environment shape).
uintptr_t bits_;
static const uintptr_t ClosedOverFlag = 0x1;
static const uintptr_t FlagMask = 0x1;
public:
BindingName()
: bits_(0)
{ }
BindingName(JSAtom* name, bool closedOver)
: bits_(uintptr_t(name) | (closedOver ? ClosedOverFlag : 0x0))
{ }
JSAtom* name() const {
return reinterpret_cast<JSAtom*>(bits_ & ~FlagMask);
}
bool closedOver() const {
return bits_ & ClosedOverFlag;
}
void trace(JSTracer* trc);
};
/**
* The various {Global,Module,...}Scope::Data classes consist of always-present
* bits, then a trailing array of BindingNames. The various Data classes all
* end in a TrailingNamesArray that contains sized/aligned space for *one*
* BindingName. Data instances that contain N BindingNames, are then allocated
* in sizeof(Data) + (space for (N - 1) BindingNames). Because this class's
* |data_| field is properly sized/aligned, the N-BindingName array can start
* at |data_|.
*
* This is concededly a very low-level representation, but we want to only
* allocate once for data+bindings both, and this does so approximately as
* elegantly as C++ allows.
*/
class TrailingNamesArray
{
private:
alignas(BindingName) unsigned char data_[sizeof(BindingName)];
private:
// Some versions of GCC treat it as a -Wstrict-aliasing violation (ergo a
// -Werror compile error) to reinterpret_cast<> |data_| to |T*|, even
// through |void*|. Placing the latter cast in these separate functions
// breaks the chain such that affected GCC versions no longer warn/error.
void* ptr() {
return data_;
}
public:
BindingName* start() { return reinterpret_cast<BindingName*>(ptr()); }
BindingName& operator[](size_t i) { return start()[i]; }
};
class BindingLocation
{
public:
enum class Kind {
Global,
Argument,
Frame,
Environment,
Import,
NamedLambdaCallee
};
private:
Kind kind_;
uint32_t slot_;
BindingLocation(Kind kind, uint32_t slot)
: kind_(kind),
slot_(slot)
{ }
public:
static BindingLocation Global() {
return BindingLocation(Kind::Global, UINT32_MAX);
}
static BindingLocation Argument(uint16_t slot) {
return BindingLocation(Kind::Argument, slot);
}
static BindingLocation Frame(uint32_t slot) {
MOZ_ASSERT(slot < LOCALNO_LIMIT);
return BindingLocation(Kind::Frame, slot);
}
static BindingLocation Environment(uint32_t slot) {
MOZ_ASSERT(slot < ENVCOORD_SLOT_LIMIT);
return BindingLocation(Kind::Environment, slot);
}
static BindingLocation Import() {
return BindingLocation(Kind::Import, UINT32_MAX);
}
static BindingLocation NamedLambdaCallee() {
return BindingLocation(Kind::NamedLambdaCallee, UINT32_MAX);
}
bool operator==(const BindingLocation& other) const {
return kind_ == other.kind_ && slot_ == other.slot_;
}
bool operator!=(const BindingLocation& other) const {
return !operator==(other);
}
Kind kind() const {
return kind_;
}
uint32_t slot() const {
MOZ_ASSERT(kind_ == Kind::Frame || kind_ == Kind::Environment);
return slot_;
}
uint16_t argumentSlot() const {
MOZ_ASSERT(kind_ == Kind::Argument);
return mozilla::AssertedCast<uint16_t>(slot_);
}
};
//
// The base class of all Scopes.
//
class Scope : public js::gc::TenuredCell
{
friend class GCMarker;
// The kind determines data_.
ScopeKind kind_;
// The enclosing scope or nullptr.
GCPtrScope enclosing_;
// If there are any aliased bindings, the shape for the
// EnvironmentObject. Otherwise nullptr.
GCPtrShape environmentShape_;
protected:
uintptr_t data_;
Scope(ScopeKind kind, Scope* enclosing, Shape* environmentShape)
: kind_(kind),
enclosing_(enclosing),
environmentShape_(environmentShape),
data_(0)
{ }
static Scope* create(ExclusiveContext* cx, ScopeKind kind, HandleScope enclosing,
HandleShape envShape);
template <typename T, typename D>
static Scope* create(ExclusiveContext* cx, ScopeKind kind, HandleScope enclosing,
HandleShape envShape, mozilla::UniquePtr<T, D> data);
template <typename ConcreteScope, XDRMode mode>
static bool XDRSizedBindingNames(XDRState<mode>* xdr, Handle<ConcreteScope*> scope,
MutableHandle<typename ConcreteScope::Data*> data);
Shape* maybeCloneEnvironmentShape(JSContext* cx);
template <typename T, typename D>
void initData(mozilla::UniquePtr<T, D> data) {
MOZ_ASSERT(!data_);
data_ = reinterpret_cast<uintptr_t>(data.release());
}
public:
static const JS::TraceKind TraceKind = JS::TraceKind::Scope;
template <typename T>
bool is() const {
return kind_ == T::classScopeKind_;
}
template <typename T>
T& as() {
MOZ_ASSERT(this->is<T>());
return *static_cast<T*>(this);
}
template <typename T>
const T& as() const {
MOZ_ASSERT(this->is<T>());
return *static_cast<const T*>(this);
}
ScopeKind kind() const {
return kind_;
}
Scope* enclosing() const {
return enclosing_;
}
Shape* environmentShape() const {
return environmentShape_;
}
bool hasEnvironment() const {
switch (kind()) {
case ScopeKind::With:
case ScopeKind::Global:
case ScopeKind::NonSyntactic:
return true;
default:
// If there's a shape, an environment must be created for this scope.
return environmentShape_ != nullptr;
}
}
uint32_t chainLength() const;
uint32_t environmentChainLength() const;
template <typename T>
bool hasOnChain() const {
for (const Scope* it = this; it; it = it->enclosing()) {
if (it->is<T>())
return true;
}
return false;
}
bool hasOnChain(ScopeKind kind) const {
for (const Scope* it = this; it; it = it->enclosing()) {
if (it->kind() == kind)
return true;
}
return false;
}
static Scope* clone(JSContext* cx, HandleScope scope, HandleScope enclosing);
void traceChildren(JSTracer* trc);
void finalize(FreeOp* fop);
size_t sizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf) const;
void dump();
};
//
// A lexical scope that holds let and const bindings. There are 4 kinds of
// LexicalScopes.
//
// Lexical
// A plain lexical scope.
//
// SimpleCatch
// Holds the single catch parameter of a catch block.
//
// Catch
// Holds the catch parameters (and only the catch parameters) of a catch
// block.
//
// NamedLambda
// StrictNamedLambda
// Holds the single name of the callee for a named lambda expression.
//
// All kinds of LexicalScopes correspond to LexicalEnvironmentObjects on the
// environment chain.
//
class LexicalScope : public Scope
{
friend class Scope;
friend class BindingIter;
public:
// Data is public because it is created by the frontend. See
// Parser<FullParseHandler>::newLexicalScopeData.
struct Data
{
// Bindings are sorted by kind in both frames and environments.
//
// lets - [0, constStart)
// consts - [constStart, length)
uint32_t constStart;
uint32_t length;
// Frame slots [0, nextFrameSlot) are live when this is the innermost
// scope.
uint32_t nextFrameSlot;
// The array of tagged JSAtom* names, allocated beyond the end of the
// struct.
TrailingNamesArray trailingNames;
void trace(JSTracer* trc);
};
static size_t sizeOfData(uint32_t length) {
return sizeof(Data) + (length ? length - 1 : 0) * sizeof(BindingName);
}
static LexicalScope* create(ExclusiveContext* cx, ScopeKind kind, Handle<Data*> data,
uint32_t firstFrameSlot, HandleScope enclosing);
template <XDRMode mode>
static bool XDR(XDRState<mode>* xdr, ScopeKind kind, HandleScope enclosing,
MutableHandleScope scope);
private:
static LexicalScope* createWithData(ExclusiveContext* cx, ScopeKind kind,
MutableHandle<UniquePtr<Data>> data,
uint32_t firstFrameSlot, HandleScope enclosing);
Data& data() {
return *reinterpret_cast<Data*>(data_);
}
const Data& data() const {
return *reinterpret_cast<Data*>(data_);
}
static uint32_t nextFrameSlot(Scope* start);
public:
uint32_t firstFrameSlot() const;
uint32_t nextFrameSlot() const {
return data().nextFrameSlot;
}
// Returns an empty shape for extensible global and non-syntactic lexical
// scopes.
static Shape* getEmptyExtensibleEnvironmentShape(ExclusiveContext* cx);
};
template <>
inline bool
Scope::is<LexicalScope>() const
{
return kind_ == ScopeKind::Lexical ||
kind_ == ScopeKind::SimpleCatch ||
kind_ == ScopeKind::Catch ||
kind_ == ScopeKind::NamedLambda ||
kind_ == ScopeKind::StrictNamedLambda;
}
//
// Scope corresponding to a function. Holds formal parameter names and, if the
// function parameters contain no expressions that might possibly be
// evaluated, the function's var bindings. For example, in these functions,
// the FunctionScope will store a/b/c bindings but not d/e/f bindings:
//
// function f1(a, b) {
// var c;
// let e;
// const f = 3;
// }
// function f2([a], b = 4, ...c) {
// var d, e, f; // stored in VarScope
// }
//
// Corresponds to CallObject on environment chain.
//
class FunctionScope : public Scope
{
friend class GCMarker;
friend class BindingIter;
friend class PositionalFormalParameterIter;
friend class Scope;
static const ScopeKind classScopeKind_ = ScopeKind::Function;
public:
// Data is public because it is created by the
// frontend. See Parser<FullParseHandler>::newFunctionScopeData.
struct Data
{
// The canonical function of the scope, as during a scope walk we
// often query properties of the JSFunction (e.g., is the function an
// arrow).
GCPtrFunction canonicalFunction;
// If parameter expressions are present, parameters act like lexical
// bindings.
bool hasParameterExprs;
// Bindings are sorted by kind in both frames and environments.
//
// Positional formal parameter names are those that are not
// destructured. They may be referred to by argument slots if
// !script()->hasParameterExprs().
//
// An argument slot that needs to be skipped due to being destructured
// or having defaults will have a nullptr name in the name array to
// advance the argument slot.
//
// positional formals - [0, nonPositionalFormalStart)
// other formals - [nonPositionalParamStart, varStart)
// vars - [varStart, length)
uint16_t nonPositionalFormalStart;
uint16_t varStart;
uint32_t length;
// Frame slots [0, nextFrameSlot) are live when this is the innermost
// scope.
uint32_t nextFrameSlot;
// The array of tagged JSAtom* names, allocated beyond the end of the
// struct.
TrailingNamesArray trailingNames;
void trace(JSTracer* trc);
};
static size_t sizeOfData(uint32_t length) {
return sizeof(Data) + (length ? length - 1 : 0) * sizeof(BindingName);
}
static FunctionScope* create(ExclusiveContext* cx, Handle<Data*> data,
bool hasParameterExprs, bool needsEnvironment,
HandleFunction fun, HandleScope enclosing);
static FunctionScope* clone(JSContext* cx, Handle<FunctionScope*> scope, HandleFunction fun,
HandleScope enclosing);
template <XDRMode mode>
static bool XDR(XDRState<mode>* xdr, HandleFunction fun, HandleScope enclosing,
MutableHandleScope scope);
private:
static FunctionScope* createWithData(ExclusiveContext* cx, MutableHandle<UniquePtr<Data>> data,
bool hasParameterExprs, bool needsEnvironment,
HandleFunction fun, HandleScope enclosing);
Data& data() {
return *reinterpret_cast<Data*>(data_);
}
const Data& data() const {
return *reinterpret_cast<Data*>(data_);
}
public:
uint32_t nextFrameSlot() const {
return data().nextFrameSlot;
}
JSFunction* canonicalFunction() const {
return data().canonicalFunction;
}
JSScript* script() const;
bool hasParameterExprs() const {
return data().hasParameterExprs;
}
uint32_t numPositionalFormalParameters() const {
return data().nonPositionalFormalStart;
}
static Shape* getEmptyEnvironmentShape(ExclusiveContext* cx, bool hasParameterExprs);
};
//
// Scope holding only vars. There are 2 kinds of VarScopes.
//
// FunctionBodyVar
// Corresponds to the extra var scope present in functions with parameter
// expressions. See examples in comment above FunctionScope.
//
// ParameterExpressionVar
// Each parameter expression is evaluated in its own var environment. For
// example, f() below will print 'fml', then 'global'. That's right.
//
// var a = 'global';
// function f(x = (eval(`var a = 'fml'`), a), y = a) {
// print(x);
// print(y);
// };
//
// Corresponds to VarEnvironmentObject on environment chain.
//
class VarScope : public Scope
{
friend class GCMarker;
friend class BindingIter;
friend class Scope;
public:
// Data is public because it is created by the
// frontend. See Parser<FullParseHandler>::newVarScopeData.
struct Data
{
// All bindings are vars.
uint32_t length;
// Frame slots [firstFrameSlot(), nextFrameSlot) are live when this is
// the innermost scope.
uint32_t nextFrameSlot;
// The array of tagged JSAtom* names, allocated beyond the end of the
// struct.
TrailingNamesArray trailingNames;
void trace(JSTracer* trc);
};
static size_t sizeOfData(uint32_t length) {
return sizeof(Data) + (length ? length - 1 : 0) * sizeof(BindingName);
}
static VarScope* create(ExclusiveContext* cx, ScopeKind kind, Handle<Data*> data,
uint32_t firstFrameSlot, bool needsEnvironment,
HandleScope enclosing);
template <XDRMode mode>
static bool XDR(XDRState<mode>* xdr, ScopeKind kind, HandleScope enclosing,
MutableHandleScope scope);
private:
static VarScope* createWithData(ExclusiveContext* cx, ScopeKind kind, MutableHandle<UniquePtr<Data>> data,
uint32_t firstFrameSlot, bool needsEnvironment,
HandleScope enclosing);
Data& data() {
return *reinterpret_cast<Data*>(data_);
}
const Data& data() const {
return *reinterpret_cast<Data*>(data_);
}
public:
uint32_t firstFrameSlot() const;
uint32_t nextFrameSlot() const {
return data().nextFrameSlot;
}
static Shape* getEmptyEnvironmentShape(ExclusiveContext* cx);
};
template <>
inline bool
Scope::is<VarScope>() const
{
return kind_ == ScopeKind::FunctionBodyVar || kind_ == ScopeKind::ParameterExpressionVar;
}
//
// Scope corresponding to both the global object scope and the global lexical
// scope.
//
// Both are extensible and are singletons across <script> tags, so these
// scopes are a fragment of the names in global scope. In other words, two
// global scripts may have two different GlobalScopes despite having the same
// GlobalObject.
//
// There are 2 kinds of GlobalScopes.
//
// Global
// Corresponds to a GlobalObject and its global LexicalEnvironmentObject on
// the environment chain.
//
// NonSyntactic
// Corresponds to a non-GlobalObject created by the embedding on the
// environment chain. This distinction is important for optimizations.
//
class GlobalScope : public Scope
{
friend class Scope;
friend class BindingIter;
public:
// Data is public because it is created by the frontend. See
// Parser<FullParseHandler>::newGlobalScopeData.
struct Data
{
// Bindings are sorted by kind.
//
// top-level funcs - [0, varStart)
// vars - [varStart, letStart)
// lets - [letStart, constStart)
// consts - [constStart, length)
uint32_t varStart;
uint32_t letStart;
uint32_t constStart;
uint32_t length;
// The array of tagged JSAtom* names, allocated beyond the end of the
// struct.
TrailingNamesArray trailingNames;
void trace(JSTracer* trc);
};
static size_t sizeOfData(uint32_t length) {
return sizeof(Data) + (length ? length - 1 : 0) * sizeof(BindingName);
}
static GlobalScope* create(ExclusiveContext* cx, ScopeKind kind, Handle<Data*> data);
static GlobalScope* createEmpty(ExclusiveContext* cx, ScopeKind kind) {
return create(cx, kind, nullptr);
}
static GlobalScope* clone(JSContext* cx, Handle<GlobalScope*> scope, ScopeKind kind);
template <XDRMode mode>
static bool XDR(XDRState<mode>* xdr, ScopeKind kind, MutableHandleScope scope);
private:
static GlobalScope* createWithData(ExclusiveContext* cx, ScopeKind kind,
MutableHandle<UniquePtr<Data>> data);
Data& data() {
return *reinterpret_cast<Data*>(data_);
}
const Data& data() const {
return *reinterpret_cast<Data*>(data_);
}
public:
bool isSyntactic() const {
return kind() != ScopeKind::NonSyntactic;
}
bool hasBindings() const {
return data().length > 0;
}
};
template <>
inline bool
Scope::is<GlobalScope>() const
{
return kind_ == ScopeKind::Global || kind_ == ScopeKind::NonSyntactic;
}
//
// Scope of a 'with' statement. Has no bindings.
//
// Corresponds to a WithEnvironmentObject on the environment chain.
class WithScope : public Scope
{
friend class Scope;
static const ScopeKind classScopeKind_ = ScopeKind::With;
public:
static WithScope* create(ExclusiveContext* cx, HandleScope enclosing);
};
//
// Scope of an eval. Holds var bindings. There are 2 kinds of EvalScopes.
//
// StrictEval
// A strict eval. Corresponds to a VarEnvironmentObject, where its var
// bindings lives.
//
// Eval
// A sloppy eval. This is an empty scope, used only in the frontend, to
// detect redeclaration errors. It has no Environment. Any `var`s declared
// in the eval code are bound on the nearest enclosing var environment.
//
class EvalScope : public Scope
{
friend class Scope;
friend class BindingIter;
public:
// Data is public because it is created by the frontend. See
// Parser<FullParseHandler>::newEvalScopeData.
struct Data
{
// All bindings in an eval script are 'var' bindings. The implicit
// lexical scope around the eval is present regardless of strictness
// and is its own LexicalScope. However, we need to track top-level
// functions specially for redeclaration checks.
//
// top-level funcs - [0, varStart)
// vars - [varStart, length)
uint32_t varStart;
uint32_t length;
// Frame slots [0, nextFrameSlot) are live when this is the innermost
// scope.
uint32_t nextFrameSlot;
// The array of tagged JSAtom* names, allocated beyond the end of the
// struct.
TrailingNamesArray trailingNames;
void trace(JSTracer* trc);
};
static size_t sizeOfData(uint32_t length) {
return sizeof(Data) + (length ? length - 1 : 0) * sizeof(BindingName);
}
static EvalScope* create(ExclusiveContext* cx, ScopeKind kind, Handle<Data*> data,
HandleScope enclosing);
template <XDRMode mode>
static bool XDR(XDRState<mode>* xdr, ScopeKind kind, HandleScope enclosing,
MutableHandleScope scope);
private:
static EvalScope* createWithData(ExclusiveContext* cx, ScopeKind kind, MutableHandle<UniquePtr<Data>> data,
HandleScope enclosing);
Data& data() {
return *reinterpret_cast<Data*>(data_);
}
const Data& data() const {
return *reinterpret_cast<Data*>(data_);
}
public:
// Starting a scope, the nearest var scope that a direct eval can
// introduce vars on.
static Scope* nearestVarScopeForDirectEval(Scope* scope);
uint32_t nextFrameSlot() const {
return data().nextFrameSlot;
}
bool strict() const {
return kind() == ScopeKind::StrictEval;
}
bool hasBindings() const {
return data().length > 0;
}
bool isNonGlobal() const {
if (strict())
return true;
return !nearestVarScopeForDirectEval(enclosing())->is<GlobalScope>();
}
static Shape* getEmptyEnvironmentShape(ExclusiveContext* cx);
};
template <>
inline bool
Scope::is<EvalScope>() const
{
return kind_ == ScopeKind::Eval || kind_ == ScopeKind::StrictEval;
}
//
// Scope corresponding to the toplevel script in an ES module.
//
// Like GlobalScopes, these scopes contain both vars and lexical bindings, as
// the treating of imports and exports requires putting them in one scope.
//
// Corresponds to a ModuleEnvironmentObject on the environment chain.
//
class ModuleScope : public Scope
{
friend class GCMarker;
friend class BindingIter;
friend class Scope;
static const ScopeKind classScopeKind_ = ScopeKind::Module;
public:
// Data is public because it is created by the frontend. See
// Parser<FullParseHandler>::newModuleScopeData.
struct Data
{
// The module of the scope.
GCPtr<ModuleObject*> module;
// Bindings are sorted by kind.
//
// imports - [0, varStart)
// vars - [varStart, letStart)
// lets - [letStart, constStart)
// consts - [constStart, length)
uint32_t varStart;
uint32_t letStart;
uint32_t constStart;
uint32_t length;
// Frame slots [0, nextFrameSlot) are live when this is the innermost
// scope.
uint32_t nextFrameSlot;
// The array of tagged JSAtom* names, allocated beyond the end of the
// struct.
TrailingNamesArray trailingNames;
void trace(JSTracer* trc);
};
static size_t sizeOfData(uint32_t length) {
return sizeof(Data) + (length ? length - 1 : 0) * sizeof(BindingName);
}
static ModuleScope* create(ExclusiveContext* cx, Handle<Data*> data,
Handle<ModuleObject*> module, HandleScope enclosing);
private:
static ModuleScope* createWithData(ExclusiveContext* cx, MutableHandle<UniquePtr<Data>> data,
Handle<ModuleObject*> module, HandleScope enclosing);
Data& data() {
return *reinterpret_cast<Data*>(data_);
}
const Data& data() const {
return *reinterpret_cast<Data*>(data_);
}
public:
uint32_t nextFrameSlot() const {
return data().nextFrameSlot;
}
ModuleObject* module() const {
return data().module;
}
JSScript* script() const;
static Shape* getEmptyEnvironmentShape(ExclusiveContext* cx);
};
//
// An iterator for a Scope's bindings. This is the source of truth for frame
// and environment object layout.
//
// It may be placed in GC containers; for example:
//
// for (Rooted<BindingIter> bi(cx, BindingIter(scope)); bi; bi++) {
// use(bi);
// SomeMayGCOperation();
// use(bi);
// }
//
class BindingIter
{
protected:
// Bindings are sorted by kind. Because different Scopes have differently
// laid out Data for packing, BindingIter must handle all binding kinds.
//
// Kind ranges:
//
// imports - [0, positionalFormalStart)
// positional formals - [positionalFormalStart, nonPositionalFormalStart)
// other formals - [nonPositionalParamStart, topLevelFunctionStart)
// top-level funcs - [topLevelFunctionStart, varStart)
// vars - [varStart, letStart)
// lets - [letStart, constStart)
// consts - [constStart, length)
//
// Access method when not closed over:
//
// imports - name
// positional formals - argument slot
// other formals - frame slot
// top-level funcs - frame slot
// vars - frame slot
// lets - frame slot
// consts - frame slot
//
// Access method when closed over:
//
// imports - name
// positional formals - environment slot or name
// other formals - environment slot or name
// top-level funcs - environment slot or name
// vars - environment slot or name
// lets - environment slot or name
// consts - environment slot or name
uint32_t positionalFormalStart_;
uint32_t nonPositionalFormalStart_;
uint32_t topLevelFunctionStart_;
uint32_t varStart_;
uint32_t letStart_;
uint32_t constStart_;
uint32_t length_;
uint32_t index_;
enum Flags : uint8_t {
CannotHaveSlots = 0,
CanHaveArgumentSlots = 1 << 0,
CanHaveFrameSlots = 1 << 1,
CanHaveEnvironmentSlots = 1 << 2,
// See comment in settle below.
HasFormalParameterExprs = 1 << 3,
IgnoreDestructuredFormalParameters = 1 << 4,
// Truly I hate named lambdas.
IsNamedLambda = 1 << 5
};
static const uint8_t CanHaveSlotsMask = 0x7;
uint8_t flags_;
uint16_t argumentSlot_;
uint32_t frameSlot_;
uint32_t environmentSlot_;
BindingName* names_;
void init(uint32_t positionalFormalStart, uint32_t nonPositionalFormalStart,
uint32_t topLevelFunctionStart, uint32_t varStart,
uint32_t letStart, uint32_t constStart,
uint8_t flags, uint32_t firstFrameSlot, uint32_t firstEnvironmentSlot,
BindingName* names, uint32_t length)
{
positionalFormalStart_ = positionalFormalStart;
nonPositionalFormalStart_ = nonPositionalFormalStart;
topLevelFunctionStart_ = topLevelFunctionStart;
varStart_ = varStart;
letStart_ = letStart;
constStart_ = constStart;
length_ = length;
index_ = 0;
flags_ = flags;
argumentSlot_ = 0;
frameSlot_ = firstFrameSlot;
environmentSlot_ = firstEnvironmentSlot;
names_ = names;
settle();
}
void init(LexicalScope::Data& data, uint32_t firstFrameSlot, uint8_t flags);
void init(FunctionScope::Data& data, uint8_t flags);
void init(VarScope::Data& data, uint32_t firstFrameSlot);
void init(GlobalScope::Data& data);
void init(EvalScope::Data& data, bool strict);
void init(ModuleScope::Data& data);
bool hasFormalParameterExprs() const {
return flags_ & HasFormalParameterExprs;
}
bool ignoreDestructuredFormalParameters() const {
return flags_ & IgnoreDestructuredFormalParameters;
}
bool isNamedLambda() const {
return flags_ & IsNamedLambda;
}
void increment() {
MOZ_ASSERT(!done());
if (flags_ & CanHaveSlotsMask) {
if (canHaveArgumentSlots()) {
if (index_ < nonPositionalFormalStart_) {
MOZ_ASSERT(index_ >= positionalFormalStart_);
argumentSlot_++;
}
}
if (closedOver()) {
// Imports must not be given known slots. They are
// indirect bindings.
MOZ_ASSERT(kind() != BindingKind::Import);
MOZ_ASSERT(canHaveEnvironmentSlots());
environmentSlot_++;
} else if (canHaveFrameSlots()) {
// Usually positional formal parameters don't have frame
// slots, except when there are parameter expressions, in
// which case they act like lets.
if (index_ >= nonPositionalFormalStart_ || (hasFormalParameterExprs() && name()))
frameSlot_++;
}
}
index_++;
}
void settle() {
if (ignoreDestructuredFormalParameters()) {
while (!done() && !name())
increment();
}
}
public:
explicit BindingIter(Scope* scope);
explicit BindingIter(JSScript* script);
BindingIter(LexicalScope::Data& data, uint32_t firstFrameSlot, bool isNamedLambda) {
init(data, firstFrameSlot, isNamedLambda ? IsNamedLambda : 0);
}
BindingIter(FunctionScope::Data& data, bool hasParameterExprs) {
init(data,
IgnoreDestructuredFormalParameters |
(hasParameterExprs ? HasFormalParameterExprs : 0));
}
BindingIter(VarScope::Data& data, uint32_t firstFrameSlot) {
init(data, firstFrameSlot);
}
explicit BindingIter(GlobalScope::Data& data) {
init(data);
}
explicit BindingIter(ModuleScope::Data& data) {
init(data);
}
BindingIter(EvalScope::Data& data, bool strict) {
init(data, strict);
}
explicit BindingIter(const BindingIter& bi) = default;
bool done() const {
return index_ == length_;
}
explicit operator bool() const {
return !done();
}
void operator++(int) {
increment();
settle();
}
bool isLast() const {
MOZ_ASSERT(!done());
return index_ + 1 == length_;
}
bool canHaveArgumentSlots() const {
return flags_ & CanHaveArgumentSlots;
}
bool canHaveFrameSlots() const {
return flags_ & CanHaveFrameSlots;
}
bool canHaveEnvironmentSlots() const {
return flags_ & CanHaveEnvironmentSlots;
}
JSAtom* name() const {
MOZ_ASSERT(!done());
return names_[index_].name();
}
bool closedOver() const {
MOZ_ASSERT(!done());
return names_[index_].closedOver();
}
BindingLocation location() const {
MOZ_ASSERT(!done());
if (!(flags_ & CanHaveSlotsMask))
return BindingLocation::Global();
if (index_ < positionalFormalStart_)
return BindingLocation::Import();
if (closedOver()) {
MOZ_ASSERT(canHaveEnvironmentSlots());
return BindingLocation::Environment(environmentSlot_);
}
if (index_ < nonPositionalFormalStart_ && canHaveArgumentSlots())
return BindingLocation::Argument(argumentSlot_);
if (canHaveFrameSlots())
return BindingLocation::Frame(frameSlot_);
MOZ_ASSERT(isNamedLambda());
return BindingLocation::NamedLambdaCallee();
}
BindingKind kind() const {
MOZ_ASSERT(!done());
if (index_ < positionalFormalStart_)
return BindingKind::Import;
if (index_ < topLevelFunctionStart_) {
// When the parameter list has expressions, the parameters act
// like lexical bindings and have TDZ.
if (hasFormalParameterExprs())
return BindingKind::Let;
return BindingKind::FormalParameter;
}
if (index_ < letStart_)
return BindingKind::Var;
if (index_ < constStart_)
return BindingKind::Let;
if (isNamedLambda())
return BindingKind::NamedLambdaCallee;
return BindingKind::Const;
}
bool isTopLevelFunction() const {
MOZ_ASSERT(!done());
return index_ >= topLevelFunctionStart_ && index_ < varStart_;
}
bool hasArgumentSlot() const {
MOZ_ASSERT(!done());
if (hasFormalParameterExprs())
return false;
return index_ >= positionalFormalStart_ && index_ < nonPositionalFormalStart_;
}
uint16_t argumentSlot() const {
MOZ_ASSERT(canHaveArgumentSlots());
return mozilla::AssertedCast<uint16_t>(index_);
}
uint32_t nextFrameSlot() const {
MOZ_ASSERT(canHaveFrameSlots());
return frameSlot_;
}
uint32_t nextEnvironmentSlot() const {
MOZ_ASSERT(canHaveEnvironmentSlots());
return environmentSlot_;
}
void trace(JSTracer* trc);
};
void DumpBindings(JSContext* cx, Scope* scope);
JSAtom* FrameSlotName(JSScript* script, jsbytecode* pc);
//
// A refinement BindingIter that only iterates over positional formal
// parameters of a function.
//
class PositionalFormalParameterIter : public BindingIter
{
void settle() {
if (index_ >= nonPositionalFormalStart_)
index_ = length_;
}
public:
explicit PositionalFormalParameterIter(JSScript* script);
void operator++(int) {
BindingIter::operator++(1);
settle();
}
bool isDestructured() const {
return !name();
}
};
//
// Iterator for walking the scope chain.
//
// It may be placed in GC containers; for example:
//
// for (Rooted<ScopeIter> si(cx, ScopeIter(scope)); si; si++) {
// use(si);
// SomeMayGCOperation();
// use(si);
// }
//
class MOZ_STACK_CLASS ScopeIter
{
Scope* scope_;
public:
explicit ScopeIter(Scope* scope)
: scope_(scope)
{ }
explicit ScopeIter(JSScript* script);
explicit ScopeIter(const ScopeIter& si)
: scope_(si.scope_)
{ }
bool done() const {
return !scope_;
}
explicit operator bool() const {
return !done();
}
void operator++(int) {
MOZ_ASSERT(!done());
scope_ = scope_->enclosing();
}
Scope* scope() const {
MOZ_ASSERT(!done());
return scope_;
}
ScopeKind kind() const {
MOZ_ASSERT(!done());
return scope_->kind();
}
// Returns the shape of the environment if it is known. It is possible to
// hasSyntacticEnvironment and to have no known shape, e.g., eval.
Shape* environmentShape() const {
return scope()->environmentShape();
}
// Returns whether this scope has a syntactic environment (i.e., an
// Environment that isn't a non-syntactic With or NonSyntacticVariables)
// on the environment chain.
bool hasSyntacticEnvironment() const;
void trace(JSTracer* trc) {
if (scope_)
TraceRoot(trc, &scope_, "scope iter scope");
}
};
//
// Specializations of Rooted containers for the iterators.
//
template <typename Outer>
class BindingIterOperations
{
const BindingIter& iter() const { return static_cast<const Outer*>(this)->get(); }
public:
bool done() const { return iter().done(); }
explicit operator bool() const { return !done(); }
bool isLast() const { return iter().isLast(); }
bool canHaveArgumentSlots() const { return iter().canHaveArgumentSlots(); }
bool canHaveFrameSlots() const { return iter().canHaveFrameSlots(); }
bool canHaveEnvironmentSlots() const { return iter().canHaveEnvironmentSlots(); }
JSAtom* name() const { return iter().name(); }
bool closedOver() const { return iter().closedOver(); }
BindingLocation location() const { return iter().location(); }
BindingKind kind() const { return iter().kind(); }
bool isTopLevelFunction() const { return iter().isTopLevelFunction(); }
bool hasArgumentSlot() const { return iter().hasArgumentSlot(); }
uint16_t argumentSlot() const { return iter().argumentSlot(); }
uint32_t nextFrameSlot() const { return iter().nextFrameSlot(); }
uint32_t nextEnvironmentSlot() const { return iter().nextEnvironmentSlot(); }
};
template <typename Outer>
class MutableBindingIterOperations : public BindingIterOperations<Outer>
{
BindingIter& iter() { return static_cast<Outer*>(this)->get(); }
public:
void operator++(int) { iter().operator++(1); }
};
template <typename Outer>
class ScopeIterOperations
{
const ScopeIter& iter() const { return static_cast<const Outer*>(this)->get(); }
public:
bool done() const { return iter().done(); }
explicit operator bool() const { return !done(); }
Scope* scope() const { return iter().scope(); }
ScopeKind kind() const { return iter().kind(); }
Shape* environmentShape() const { return iter().environmentShape(); }
bool hasSyntacticEnvironment() const { return iter().hasSyntacticEnvironment(); }
};
template <typename Outer>
class MutableScopeIterOperations : public ScopeIterOperations<Outer>
{
ScopeIter& iter() { return static_cast<Outer*>(this)->get(); }
public:
void operator++(int) { iter().operator++(1); }
};
#define SPECIALIZE_ROOTING_CONTAINERS(Iter, BaseIter) \
template <> \
class RootedBase<Iter> \
: public Mutable##BaseIter##Operations<JS::Rooted<Iter>> \
{ }; \
\
template <> \
class MutableHandleBase<Iter> \
: public Mutable##BaseIter##Operations<JS::MutableHandle<Iter>> \
{ }; \
\
template <> \
class HandleBase<Iter> \
: public BaseIter##Operations<JS::Handle<Iter>> \
{ }; \
\
template <> \
class PersistentRootedBase<Iter> \
: public Mutable##BaseIter##Operations<JS::PersistentRooted<Iter>> \
{ }
SPECIALIZE_ROOTING_CONTAINERS(BindingIter, BindingIter);
SPECIALIZE_ROOTING_CONTAINERS(PositionalFormalParameterIter, BindingIter);
SPECIALIZE_ROOTING_CONTAINERS(ScopeIter, ScopeIter);
#undef SPECIALIZE_ROOTING_CONTAINERS
//
// Allow using is<T> and as<T> on Rooted<Scope*> and Handle<Scope*>.
//
template <typename Outer>
struct ScopeCastOperation
{
template <class U>
JS::Handle<U*> as() const {
const Outer& self = *static_cast<const Outer*>(this);
MOZ_ASSERT_IF(self, self->template is<U>());
return Handle<U*>::fromMarkedLocation(reinterpret_cast<U* const*>(self.address()));
}
};
template <>
class RootedBase<Scope*> : public ScopeCastOperation<JS::Rooted<Scope*>>
{ };
template <>
class HandleBase<Scope*> : public ScopeCastOperation<JS::Handle<Scope*>>
{ };
template <>
class MutableHandleBase<Scope*> : public ScopeCastOperation<JS::MutableHandle<Scope*>>
{ };
} // namespace js
namespace JS {
template <>
struct GCPolicy<js::ScopeKind> : public IgnoreGCPolicy<js::ScopeKind>
{ };
template <typename T>
struct ScopeDataGCPolicy
{
static T initial() {
return nullptr;
}
static void trace(JSTracer* trc, T* vp, const char* name) {
if (*vp)
(*vp)->trace(trc);
}
};
#define DEFINE_SCOPE_DATA_GCPOLICY(Data) \
template <> \
struct MapTypeToRootKind<Data*> { \
static const RootKind kind = RootKind::Traceable; \
}; \
template <> \
struct GCPolicy<Data*> : public ScopeDataGCPolicy<Data*> \
{ }
DEFINE_SCOPE_DATA_GCPOLICY(js::LexicalScope::Data);
DEFINE_SCOPE_DATA_GCPOLICY(js::FunctionScope::Data);
DEFINE_SCOPE_DATA_GCPOLICY(js::VarScope::Data);
DEFINE_SCOPE_DATA_GCPOLICY(js::GlobalScope::Data);
DEFINE_SCOPE_DATA_GCPOLICY(js::EvalScope::Data);
DEFINE_SCOPE_DATA_GCPOLICY(js::ModuleScope::Data);
#undef DEFINE_SCOPE_DATA_GCPOLICY
namespace ubi {
template <>
class Concrete<js::Scope> : TracerConcrete<js::Scope>
{
protected:
explicit Concrete(js::Scope* ptr) : TracerConcrete<js::Scope>(ptr) { }
public:
static void construct(void* storage, js::Scope* ptr) {
new (storage) Concrete(ptr);
}
CoarseType coarseType() const final { return CoarseType::Script; }
Size size(mozilla::MallocSizeOf mallocSizeOf) const override;
const char16_t* typeName() const override { return concreteTypeName; }
static const char16_t concreteTypeName[];
};
} // namespace ubi
} // namespace JS
#endif // vm_Scope_h
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