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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/. */
/* JS parser. */
#ifndef frontend_Parser_h
#define frontend_Parser_h
#include "mozilla/Array.h"
#include "mozilla/Maybe.h"
#include "jspubtd.h"
#include "frontend/BytecodeCompiler.h"
#include "frontend/FullParseHandler.h"
#include "frontend/NameAnalysisTypes.h"
#include "frontend/NameCollections.h"
#include "frontend/SharedContext.h"
#include "frontend/SyntaxParseHandler.h"
namespace js {
class ModuleObject;
namespace frontend {
/*
* The struct ParseContext stores information about the current parsing context,
* which is part of the parser state (see the field Parser::pc). The current
* parsing context is either the global context, or the function currently being
* parsed. When the parser encounters a function definition, it creates a new
* ParseContext, makes it the new current context.
*/
class ParseContext : public Nestable<ParseContext>
{
public:
// The intra-function statement stack.
//
// Used for early error checking that depend on the nesting structure of
// statements, such as continue/break targets, labels, and unbraced
// lexical declarations.
class Statement : public Nestable<Statement>
{
StatementKind kind_;
public:
using Nestable<Statement>::enclosing;
using Nestable<Statement>::findNearest;
Statement(ParseContext* pc, StatementKind kind)
: Nestable<Statement>(&pc->innermostStatement_),
kind_(kind)
{ }
template <typename T> inline bool is() const;
template <typename T> inline T& as();
StatementKind kind() const {
return kind_;
}
void refineForKind(StatementKind newForKind) {
MOZ_ASSERT(kind_ == StatementKind::ForLoop);
MOZ_ASSERT(newForKind == StatementKind::ForInLoop ||
newForKind == StatementKind::ForOfLoop);
kind_ = newForKind;
}
};
class LabelStatement : public Statement
{
RootedAtom label_;
public:
LabelStatement(ParseContext* pc, JSAtom* label)
: Statement(pc, StatementKind::Label),
label_(pc->sc_->context, label)
{ }
HandleAtom label() const {
return label_;
}
};
// The intra-function scope stack.
//
// Tracks declared and used names within a scope.
class Scope : public Nestable<Scope>
{
// Names declared in this scope. Corresponds to the union of
// VarDeclaredNames and LexicallyDeclaredNames in the ES spec.
//
// A 'var' declared name is a member of the declared name set of every
// scope in its scope contour.
//
// A lexically declared name is a member only of the declared name set of
// the scope in which it is declared.
PooledMapPtr<DeclaredNameMap> declared_;
// Monotonically increasing id.
uint32_t id_;
bool maybeReportOOM(ParseContext* pc, bool result) {
if (!result)
ReportOutOfMemory(pc->sc()->context);
return result;
}
public:
using DeclaredNamePtr = DeclaredNameMap::Ptr;
using AddDeclaredNamePtr = DeclaredNameMap::AddPtr;
using Nestable<Scope>::enclosing;
template <typename ParseHandler>
explicit Scope(Parser<ParseHandler>* parser)
: Nestable<Scope>(&parser->pc->innermostScope_),
declared_(parser->context->frontendCollectionPool()),
id_(parser->usedNames.nextScopeId())
{ }
void dump(ParseContext* pc);
uint32_t id() const {
return id_;
}
MOZ_MUST_USE bool init(ParseContext* pc) {
if (id_ == UINT32_MAX) {
pc->tokenStream_.reportError(JSMSG_NEED_DIET, js_script_str);
return false;
}
return declared_.acquire(pc->sc()->context);
}
DeclaredNamePtr lookupDeclaredName(JSAtom* name) {
return declared_->lookup(name);
}
AddDeclaredNamePtr lookupDeclaredNameForAdd(JSAtom* name) {
return declared_->lookupForAdd(name);
}
MOZ_MUST_USE bool addDeclaredName(ParseContext* pc, AddDeclaredNamePtr& p, JSAtom* name,
DeclarationKind kind)
{
return maybeReportOOM(pc, declared_->add(p, name, DeclaredNameInfo(kind)));
}
// Remove all VarForAnnexBLexicalFunction declarations of a certain
// name from all scopes in pc's scope stack.
static void removeVarForAnnexBLexicalFunction(ParseContext* pc, JSAtom* name);
// Add and remove catch parameter names. Used to implement the odd
// semantics of catch bodies.
bool addCatchParameters(ParseContext* pc, Scope& catchParamScope);
void removeCatchParameters(ParseContext* pc, Scope& catchParamScope);
void useAsVarScope(ParseContext* pc) {
MOZ_ASSERT(!pc->varScope_);
pc->varScope_ = this;
}
// An iterator for the set of names a scope binds: the set of all
// declared names for 'var' scopes, and the set of lexically declared
// names for non-'var' scopes.
class BindingIter
{
friend class Scope;
DeclaredNameMap::Range declaredRange_;
mozilla::DebugOnly<uint32_t> count_;
bool isVarScope_;
BindingIter(Scope& scope, bool isVarScope)
: declaredRange_(scope.declared_->all()),
count_(0),
isVarScope_(isVarScope)
{
settle();
}
void settle() {
// Both var and lexically declared names are binding in a var
// scope.
if (isVarScope_)
return;
// Otherwise, pop only lexically declared names are
// binding. Pop the range until we find such a name.
while (!declaredRange_.empty()) {
if (BindingKindIsLexical(kind()))
break;
declaredRange_.popFront();
}
}
public:
bool done() const {
return declaredRange_.empty();
}
explicit operator bool() const {
return !done();
}
JSAtom* name() {
MOZ_ASSERT(!done());
return declaredRange_.front().key();
}
DeclarationKind declarationKind() {
MOZ_ASSERT(!done());
return declaredRange_.front().value()->kind();
}
BindingKind kind() {
return DeclarationKindToBindingKind(declarationKind());
}
bool closedOver() {
MOZ_ASSERT(!done());
return declaredRange_.front().value()->closedOver();
}
void setClosedOver() {
MOZ_ASSERT(!done());
return declaredRange_.front().value()->setClosedOver();
}
void operator++(int) {
MOZ_ASSERT(!done());
MOZ_ASSERT(count_ != UINT32_MAX);
declaredRange_.popFront();
settle();
}
};
inline BindingIter bindings(ParseContext* pc);
};
class VarScope : public Scope
{
public:
template <typename ParseHandler>
explicit VarScope(Parser<ParseHandler>* parser)
: Scope(parser)
{
useAsVarScope(parser->pc);
}
};
private:
// Context shared between parsing and bytecode generation.
SharedContext* sc_;
// TokenStream used for error reporting.
TokenStream& tokenStream_;
// The innermost statement, i.e., top of the statement stack.
Statement* innermostStatement_;
// The innermost scope, i.e., top of the scope stack.
//
// The outermost scope in the stack is usually varScope_. In the case of
// functions, the outermost scope is functionScope_, which may be
// varScope_. See comment above functionScope_.
Scope* innermostScope_;
// If isFunctionBox() and the function is a named lambda, the DeclEnv
// scope for named lambdas.
mozilla::Maybe<Scope> namedLambdaScope_;
// If isFunctionBox(), the scope for the function. If there are no
// parameter expressions, this is scope for the entire function. If there
// are parameter expressions, this holds the special function names
// ('.this', 'arguments') and the formal parameers.
mozilla::Maybe<Scope> functionScope_;
// The body-level scope. This always exists, but not necessarily at the
// beginning of parsing the script in the case of functions with parameter
// expressions.
Scope* varScope_;
// Inner function boxes in this context to try Annex B.3.3 semantics
// on. Only used when full parsing.
PooledVectorPtr<FunctionBoxVector> innerFunctionBoxesForAnnexB_;
// Simple formal parameter names, in order of appearance. Only used when
// isFunctionBox().
PooledVectorPtr<AtomVector> positionalFormalParameterNames_;
// Closed over binding names, in order of appearance. Null-delimited
// between scopes. Only used when syntax parsing.
PooledVectorPtr<AtomVector> closedOverBindingsForLazy_;
// Monotonically increasing id.
uint32_t scriptId_;
// Set when compiling a function using Parser::standaloneFunctionBody via
// the Function or Generator constructor.
bool isStandaloneFunctionBody_;
// Set when encountering a super.property inside a method. We need to mark
// the nearest super scope as needing a home object.
bool superScopeNeedsHomeObject_;
public:
// lastYieldOffset stores the offset of the last yield that was parsed.
// NoYieldOffset is its initial value.
static const uint32_t NoYieldOffset = UINT32_MAX;
uint32_t lastYieldOffset;
// lastAwaitOffset stores the offset of the last await that was parsed.
// NoAwaitOffset is its initial value.
static const uint32_t NoAwaitOffset = UINT32_MAX;
uint32_t lastAwaitOffset;
// All inner functions in this context. Only used when syntax parsing.
Rooted<GCVector<JSFunction*, 8>> innerFunctionsForLazy;
// In a function context, points to a Directive struct that can be updated
// to reflect new directives encountered in the Directive Prologue that
// require reparsing the function. In global/module/generator-tail contexts,
// we don't need to reparse when encountering a DirectivePrologue so this
// pointer may be nullptr.
Directives* newDirectives;
// Set when parsing a declaration-like destructuring pattern. This flag
// causes PrimaryExpr to create PN_NAME parse nodes for variable references
// which are not hooked into any definition's use chain, added to any tree
// context's AtomList, etc. etc. checkDestructuring will do that work
// later.
//
// The comments atop checkDestructuring explain the distinction between
// assignment-like and declaration-like destructuring patterns, and why
// they need to be treated differently.
mozilla::Maybe<DeclarationKind> inDestructuringDecl;
// Set when parsing a function and it has 'return <expr>;'
bool funHasReturnExpr;
// Set when parsing a function and it has 'return;'
bool funHasReturnVoid;
public:
template <typename ParseHandler>
ParseContext(Parser<ParseHandler>* prs, SharedContext* sc, Directives* newDirectives)
: Nestable<ParseContext>(&prs->pc),
sc_(sc),
tokenStream_(prs->tokenStream),
innermostStatement_(nullptr),
innermostScope_(nullptr),
varScope_(nullptr),
innerFunctionBoxesForAnnexB_(prs->context->frontendCollectionPool()),
positionalFormalParameterNames_(prs->context->frontendCollectionPool()),
closedOverBindingsForLazy_(prs->context->frontendCollectionPool()),
scriptId_(prs->usedNames.nextScriptId()),
isStandaloneFunctionBody_(false),
superScopeNeedsHomeObject_(false),
lastYieldOffset(NoYieldOffset),
lastAwaitOffset(NoAwaitOffset),
innerFunctionsForLazy(prs->context, GCVector<JSFunction*, 8>(prs->context)),
newDirectives(newDirectives),
funHasReturnExpr(false),
funHasReturnVoid(false)
{
if (isFunctionBox()) {
if (functionBox()->function()->isNamedLambda())
namedLambdaScope_.emplace(prs);
functionScope_.emplace(prs);
}
}
~ParseContext();
MOZ_MUST_USE bool init();
SharedContext* sc() {
return sc_;
}
bool isFunctionBox() const {
return sc_->isFunctionBox();
}
FunctionBox* functionBox() {
return sc_->asFunctionBox();
}
Statement* innermostStatement() {
return innermostStatement_;
}
Scope* innermostScope() {
// There is always at least one scope: the 'var' scope.
MOZ_ASSERT(innermostScope_);
return innermostScope_;
}
Scope& namedLambdaScope() {
MOZ_ASSERT(functionBox()->function()->isNamedLambda());
return *namedLambdaScope_;
}
Scope& functionScope() {
MOZ_ASSERT(isFunctionBox());
return *functionScope_;
}
Scope& varScope() {
MOZ_ASSERT(varScope_);
return *varScope_;
}
bool isFunctionExtraBodyVarScopeInnermost() {
return isFunctionBox() && functionBox()->hasParameterExprs &&
innermostScope() == varScope_;
}
template <typename Predicate /* (Statement*) -> bool */>
Statement* findInnermostStatement(Predicate predicate) {
return Statement::findNearest(innermostStatement_, predicate);
}
template <typename T, typename Predicate /* (Statement*) -> bool */>
T* findInnermostStatement(Predicate predicate) {
return Statement::findNearest<T>(innermostStatement_, predicate);
}
AtomVector& positionalFormalParameterNames() {
return *positionalFormalParameterNames_;
}
AtomVector& closedOverBindingsForLazy() {
return *closedOverBindingsForLazy_;
}
MOZ_MUST_USE bool addInnerFunctionBoxForAnnexB(FunctionBox* funbox);
void removeInnerFunctionBoxesForAnnexB(JSAtom* name);
void finishInnerFunctionBoxesForAnnexB();
// True if we are at the topmost level of a entire script or function body.
// For example, while parsing this code we would encounter f1 and f2 at
// body level, but we would not encounter f3 or f4 at body level:
//
// function f1() { function f2() { } }
// if (cond) { function f3() { if (cond) { function f4() { } } } }
//
bool atBodyLevel() {
return !innermostStatement_;
}
bool atGlobalLevel() {
return atBodyLevel() && sc_->isGlobalContext();
}
// True if we are at the topmost level of a module only.
bool atModuleLevel() {
return atBodyLevel() && sc_->isModuleContext();
}
void setIsStandaloneFunctionBody() {
isStandaloneFunctionBody_ = true;
}
bool isStandaloneFunctionBody() const {
return isStandaloneFunctionBody_;
}
void setSuperScopeNeedsHomeObject() {
MOZ_ASSERT(sc_->allowSuperProperty());
superScopeNeedsHomeObject_ = true;
}
bool superScopeNeedsHomeObject() const {
return superScopeNeedsHomeObject_;
}
bool useAsmOrInsideUseAsm() const {
return sc_->isFunctionBox() && sc_->asFunctionBox()->useAsmOrInsideUseAsm();
}
// Most functions start off being parsed as non-generators.
// Non-generators transition to LegacyGenerator on parsing "yield" in JS 1.7.
// An ES6 generator is marked as a "star generator" before its body is parsed.
GeneratorKind generatorKind() const {
return sc_->isFunctionBox() ? sc_->asFunctionBox()->generatorKind() : NotGenerator;
}
bool isGenerator() const {
return generatorKind() != NotGenerator;
}
bool isLegacyGenerator() const {
return generatorKind() == LegacyGenerator;
}
bool isStarGenerator() const {
return generatorKind() == StarGenerator;
}
bool isAsync() const {
return sc_->isFunctionBox() && sc_->asFunctionBox()->isAsync();
}
FunctionAsyncKind asyncKind() const {
return isAsync() ? AsyncFunction : SyncFunction;
}
bool isArrowFunction() const {
return sc_->isFunctionBox() && sc_->asFunctionBox()->function()->isArrow();
}
bool isMethod() const {
return sc_->isFunctionBox() && sc_->asFunctionBox()->function()->isMethod();
}
uint32_t scriptId() const {
return scriptId_;
}
};
template <>
inline bool
ParseContext::Statement::is<ParseContext::LabelStatement>() const
{
return kind_ == StatementKind::Label;
}
template <typename T>
inline T&
ParseContext::Statement::as()
{
MOZ_ASSERT(is<T>());
return static_cast<T&>(*this);
}
inline ParseContext::Scope::BindingIter
ParseContext::Scope::bindings(ParseContext* pc)
{
// In function scopes with parameter expressions, function special names
// (like '.this') are declared as vars in the function scope, despite its
// not being the var scope.
return BindingIter(*this, pc->varScope_ == this || pc->functionScope_.ptrOr(nullptr) == this);
}
inline
Directives::Directives(ParseContext* parent)
: strict_(parent->sc()->strict()),
asmJS_(parent->useAsmOrInsideUseAsm())
{}
enum VarContext { HoistVars, DontHoistVars };
enum PropListType { ObjectLiteral, ClassBody, DerivedClassBody };
enum class PropertyType {
Normal,
Shorthand,
CoverInitializedName,
Getter,
GetterNoExpressionClosure,
Setter,
SetterNoExpressionClosure,
Method,
GeneratorMethod,
AsyncMethod,
Constructor,
DerivedConstructor
};
// Specify a value for an ES6 grammar parametrization. We have no enum for
// [Return] because its behavior is exactly equivalent to checking whether
// we're in a function box -- easier and simpler than passing an extra
// parameter everywhere.
enum YieldHandling { YieldIsName, YieldIsKeyword };
enum InHandling { InAllowed, InProhibited };
enum DefaultHandling { NameRequired, AllowDefaultName };
enum TripledotHandling { TripledotAllowed, TripledotProhibited };
// A data structure for tracking used names per parsing session in order to
// compute which bindings are closed over. Scripts and scopes are numbered
// monotonically in textual order and name uses are tracked by lists of
// (script id, scope id) pairs of their use sites.
//
// Intuitively, in a pair (P,S), P tracks the most nested function that has a
// use of u, and S tracks the most nested scope that is still being parsed.
//
// P is used to answer the question "is u used by a nested function?"
// S is used to answer the question "is u used in any scopes currently being
// parsed?"
//
// The algorithm:
//
// Let Used by a map of names to lists.
//
// 1. Number all scopes in monotonic increasing order in textual order.
// 2. Number all scripts in monotonic increasing order in textual order.
// 3. When an identifier u is used in scope numbered S in script numbered P,
// and u is found in Used,
// a. Append (P,S) to Used[u].
// b. Otherwise, assign the the list [(P,S)] to Used[u].
// 4. When we finish parsing a scope S in script P, for each declared name d in
// Declared(S):
// a. If d is found in Used, mark d as closed over if there is a value
// (P_d, S_d) in Used[d] such that P_d > P and S_d > S.
// b. Remove all values (P_d, S_d) in Used[d] such that S_d are >= S.
//
// Steps 1 and 2 are implemented by UsedNameTracker::next{Script,Scope}Id.
// Step 3 is implemented by UsedNameTracker::noteUsedInScope.
// Step 4 is implemented by UsedNameTracker::noteBoundInScope and
// Parser::propagateFreeNamesAndMarkClosedOverBindings.
class UsedNameTracker
{
public:
struct Use
{
uint32_t scriptId;
uint32_t scopeId;
};
class UsedNameInfo
{
friend class UsedNameTracker;
Vector<Use, 6> uses_;
void resetToScope(uint32_t scriptId, uint32_t scopeId);
public:
explicit UsedNameInfo(ExclusiveContext* cx)
: uses_(cx)
{ }
UsedNameInfo(UsedNameInfo&& other)
: uses_(mozilla::Move(other.uses_))
{ }
bool noteUsedInScope(uint32_t scriptId, uint32_t scopeId) {
if (uses_.empty() || uses_.back().scopeId < scopeId)
return uses_.append(Use { scriptId, scopeId });
return true;
}
void noteBoundInScope(uint32_t scriptId, uint32_t scopeId, bool* closedOver) {
*closedOver = false;
while (!uses_.empty()) {
Use& innermost = uses_.back();
if (innermost.scopeId < scopeId)
break;
if (innermost.scriptId > scriptId)
*closedOver = true;
uses_.popBack();
}
}
bool isUsedInScript(uint32_t scriptId) const {
return !uses_.empty() && uses_.back().scriptId >= scriptId;
}
};
using UsedNameMap = HashMap<JSAtom*,
UsedNameInfo,
DefaultHasher<JSAtom*>>;
private:
// The map of names to chains of uses.
UsedNameMap map_;
// Monotonically increasing id for all nested scripts.
uint32_t scriptCounter_;
// Monotonically increasing id for all nested scopes.
uint32_t scopeCounter_;
public:
explicit UsedNameTracker(ExclusiveContext* cx)
: map_(cx),
scriptCounter_(0),
scopeCounter_(0)
{ }
MOZ_MUST_USE bool init() {
return map_.init();
}
uint32_t nextScriptId() {
MOZ_ASSERT(scriptCounter_ != UINT32_MAX,
"ParseContext::Scope::init should have prevented wraparound");
return scriptCounter_++;
}
uint32_t nextScopeId() {
MOZ_ASSERT(scopeCounter_ != UINT32_MAX);
return scopeCounter_++;
}
UsedNameMap::Ptr lookup(JSAtom* name) const {
return map_.lookup(name);
}
MOZ_MUST_USE bool noteUse(ExclusiveContext* cx, JSAtom* name,
uint32_t scriptId, uint32_t scopeId);
struct RewindToken
{
private:
friend class UsedNameTracker;
uint32_t scriptId;
uint32_t scopeId;
};
RewindToken getRewindToken() const {
RewindToken token;
token.scriptId = scriptCounter_;
token.scopeId = scopeCounter_;
return token;
}
// Resets state so that scriptId and scopeId are the innermost script and
// scope, respectively. Used for rewinding state on syntax parse failure.
void rewind(RewindToken token);
// Resets state to beginning of compilation.
void reset() {
map_.clear();
RewindToken token;
token.scriptId = 0;
token.scopeId = 0;
rewind(token);
}
};
template <typename ParseHandler>
class Parser final : private JS::AutoGCRooter, public StrictModeGetter
{
private:
using Node = typename ParseHandler::Node;
/*
* A class for temporarily stashing errors while parsing continues.
*
* The ability to stash an error is useful for handling situations where we
* aren't able to verify that an error has occurred until later in the parse.
* For instance | ({x=1}) | is always parsed as an object literal with
* a SyntaxError, however, in the case where it is followed by '=>' we rewind
* and reparse it as a valid arrow function. Here a PossibleError would be
* set to 'pending' when the initial SyntaxError was encountered then 'resolved'
* just before rewinding the parser.
*
* There are currently two kinds of PossibleErrors: Expression and
* Destructuring errors. Expression errors are used to mark a possible
* syntax error when a grammar production is used in an expression context.
* For example in |{x = 1}|, we mark the CoverInitializedName |x = 1| as a
* possible expression error, because CoverInitializedName productions
* are disallowed when an actual ObjectLiteral is expected.
* Destructuring errors are used to record possible syntax errors in
* destructuring contexts. For example in |[...rest, ] = []|, we initially
* mark the trailing comma after the spread expression as a possible
* destructuring error, because the ArrayAssignmentPattern grammar
* production doesn't allow a trailing comma after the rest element.
*
* When using PossibleError one should set a pending error at the location
* where an error occurs. From that point, the error may be resolved
* (invalidated) or left until the PossibleError is checked.
*
* Ex:
* PossibleError possibleError(*this);
* possibleError.setPendingExpressionError(pn, JSMSG_BAD_PROP_ID);
* // A JSMSG_BAD_PROP_ID ParseError is reported, returns false.
* if (!possibleError.checkForExpressionError())
* return false; // we reach this point with a pending exception
*
* PossibleError possibleError(*this);
* possibleError.setPendingExpressionError(pn, JSMSG_BAD_PROP_ID);
* // Returns true, no error is reported.
* if (!possibleError.checkForDestructuringError())
* return false; // not reached, no pending exception
*
* PossibleError possibleError(*this);
* // Returns true, no error is reported.
* if (!possibleError.checkForExpressionError())
* return false; // not reached, no pending exception
*/
class MOZ_STACK_CLASS PossibleError
{
private:
enum class ErrorKind { Expression, Destructuring };
enum class ErrorState { None, Pending };
struct Error {
ErrorState state_ = ErrorState::None;
// Error reporting fields.
uint32_t offset_;
unsigned errorNumber_;
};
Parser<ParseHandler>& parser_;
Error exprError_;
Error destructuringError_;
// Returns the error report.
Error& error(ErrorKind kind);
// Return true if an error is pending without reporting
bool hasError(ErrorKind kind);
// Resolve any pending error.
void setResolved(ErrorKind kind);
// Set a pending error. Only a single error may be set per instance and
// error kind.
void setPending(ErrorKind kind, Node pn, unsigned errorNumber);
// If there is a pending error, report it and return false, otherwise
// return true.
bool checkForError(ErrorKind kind);
// Transfer an existing error to another instance.
void transferErrorTo(ErrorKind kind, PossibleError* other);
public:
explicit PossibleError(Parser<ParseHandler>& parser);
// Set a pending destructuring error. Only a single error may be set
// per instance, i.e. subsequent calls to this method are ignored and
// won't overwrite the existing pending error.
void setPendingDestructuringError(Node pn, unsigned errorNumber);
// Set a pending expression error. Only a single error may be set per
// instance, i.e. subsequent calls to this method are ignored and won't
// overwrite the existing pending error.
void setPendingExpressionError(Node pn, unsigned errorNumber);
// If there is a pending destructuring error, report it and return
// false, otherwise return true. Clears any pending expression error.
bool checkForDestructuringError();
// If there is a pending expression error, report it and return false,
// otherwise return true. Clears any pending destructuring error.
bool checkForExpressionError();
// Pass pending errors between possible error instances. This is useful
// for extending the lifetime of a pending error beyond the scope of
// the PossibleError where it was initially set (keeping in mind that
// PossibleError is a MOZ_STACK_CLASS).
void transferErrorsTo(PossibleError* other);
};
public:
ExclusiveContext* const context;
LifoAlloc& alloc;
TokenStream tokenStream;
LifoAlloc::Mark tempPoolMark;
/* list of parsed objects for GC tracing */
ObjectBox* traceListHead;
/* innermost parse context (stack-allocated) */
ParseContext* pc;
// For tracking used names in this parsing session.
UsedNameTracker& usedNames;
/* Compression token for aborting. */
SourceCompressionTask* sct;
ScriptSource* ss;
/* Root atoms and objects allocated for the parsed tree. */
AutoKeepAtoms keepAtoms;
/* Perform constant-folding; must be true when interfacing with the emitter. */
const bool foldConstants:1;
private:
#if DEBUG
/* Our fallible 'checkOptions' member function has been called. */
bool checkOptionsCalled:1;
#endif
/*
* Not all language constructs can be handled during syntax parsing. If it
* is not known whether the parse succeeds or fails, this bit is set and
* the parse will return false.
*/
bool abortedSyntaxParse:1;
/* Unexpected end of input, i.e. TOK_EOF not at top-level. */
bool isUnexpectedEOF_:1;
public:
/* State specific to the kind of parse being performed. */
ParseHandler handler;
void prepareNodeForMutation(Node node) { handler.prepareNodeForMutation(node); }
void freeTree(Node node) { handler.freeTree(node); }
private:
bool reportHelper(ParseReportKind kind, bool strict, uint32_t offset,
unsigned errorNumber, va_list args);
public:
bool report(ParseReportKind kind, bool strict, Node pn, unsigned errorNumber, ...);
bool reportNoOffset(ParseReportKind kind, bool strict, unsigned errorNumber, ...);
bool reportWithOffset(ParseReportKind kind, bool strict, uint32_t offset, unsigned errorNumber,
...);
Parser(ExclusiveContext* cx, LifoAlloc& alloc, const ReadOnlyCompileOptions& options,
const char16_t* chars, size_t length, bool foldConstants, UsedNameTracker& usedNames,
Parser<SyntaxParseHandler>* syntaxParser, LazyScript* lazyOuterFunction);
~Parser();
bool checkOptions();
// A Parser::Mark is the extension of the LifoAlloc::Mark to the entire
// Parser's state. Note: clients must still take care that any ParseContext
// that points into released ParseNodes is destroyed.
class Mark
{
friend class Parser;
LifoAlloc::Mark mark;
ObjectBox* traceListHead;
};
Mark mark() const {
Mark m;
m.mark = alloc.mark();
m.traceListHead = traceListHead;
return m;
}
void release(Mark m) {
alloc.release(m.mark);
traceListHead = m.traceListHead;
}
friend void js::frontend::MarkParser(JSTracer* trc, JS::AutoGCRooter* parser);
const char* getFilename() const { return tokenStream.getFilename(); }
JSVersion versionNumber() const { return tokenStream.versionNumber(); }
/*
* Parse a top-level JS script.
*/
Node parse();
/*
* Allocate a new parsed object or function container from
* cx->tempLifoAlloc.
*/
ObjectBox* newObjectBox(JSObject* obj);
FunctionBox* newFunctionBox(Node fn, JSFunction* fun, uint32_t preludeStart,
Directives directives,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind,
bool tryAnnexB);
/*
* Create a new function object given a name (which is optional if this is
* a function expression).
*/
JSFunction* newFunction(HandleAtom atom, FunctionSyntaxKind kind,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind,
HandleObject proto);
void trace(JSTracer* trc);
bool hadAbortedSyntaxParse() {
return abortedSyntaxParse;
}
void clearAbortedSyntaxParse() {
abortedSyntaxParse = false;
}
bool isUnexpectedEOF() const { return isUnexpectedEOF_; }
bool checkUnescapedName();
private:
Parser* thisForCtor() { return this; }
JSAtom* stopStringCompression();
Node stringLiteral();
Node noSubstitutionTemplate();
Node templateLiteral(YieldHandling yieldHandling);
bool taggedTemplate(YieldHandling yieldHandling, Node nodeList, TokenKind tt);
bool appendToCallSiteObj(Node callSiteObj);
bool addExprAndGetNextTemplStrToken(YieldHandling yieldHandling, Node nodeList,
TokenKind* ttp);
bool checkStatementsEOF();
inline Node newName(PropertyName* name);
inline Node newName(PropertyName* name, TokenPos pos);
inline Node newYieldExpression(uint32_t begin, Node expr, bool isYieldStar = false);
inline Node newAwaitExpression(uint32_t begin, Node expr);
inline bool abortIfSyntaxParser();
public:
/* Public entry points for parsing. */
Node statement(YieldHandling yieldHandling);
Node statementListItem(YieldHandling yieldHandling, bool canHaveDirectives = false);
bool maybeParseDirective(Node list, Node pn, bool* cont);
// Parse the body of an eval.
//
// Eval scripts are distinguished from global scripts in that in ES6, per
// 18.2.1.1 steps 9 and 10, all eval scripts are executed under a fresh
// lexical scope.
Node evalBody(EvalSharedContext* evalsc);
// Parse the body of a global script.
Node globalBody(GlobalSharedContext* globalsc);
// Parse a module.
Node moduleBody(ModuleSharedContext* modulesc);
// Parse a function, used for the Function, GeneratorFunction, and
// AsyncFunction constructors.
Node standaloneFunction(HandleFunction fun, HandleScope enclosingScope,
mozilla::Maybe<uint32_t> parameterListEnd,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind,
Directives inheritedDirectives, Directives* newDirectives);
// Parse a function, given only its arguments and body. Used for lazily
// parsed functions.
Node standaloneLazyFunction(HandleFunction fun, bool strict,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind);
// Parse an inner function given an enclosing ParseContext and a
// FunctionBox for the inner function.
bool innerFunction(Node pn, ParseContext* outerpc, FunctionBox* funbox, uint32_t preludeStart,
InHandling inHandling, YieldHandling yieldHandling,
FunctionSyntaxKind kind,
Directives inheritedDirectives, Directives* newDirectives);
// Parse a function's formal parameters and its body assuming its function
// ParseContext is already on the stack.
bool functionFormalParametersAndBody(InHandling inHandling, YieldHandling yieldHandling,
Node pn, FunctionSyntaxKind kind,
mozilla::Maybe<uint32_t> parameterListEnd = mozilla::Nothing());
// Determine whether |yield| is a valid name in the current context, or
// whether it's prohibited due to strictness, JS version, or occurrence
// inside a star generator.
bool yieldExpressionsSupported() {
return (versionNumber() >= JSVERSION_1_7 || pc->isGenerator()) && !pc->isAsync();
}
// Match the current token against the BindingIdentifier production with
// the given Yield parameter. If there is no match, report a syntax
// error.
PropertyName* bindingIdentifier(YieldHandling yieldHandling);
virtual bool strictMode() { return pc->sc()->strict(); }
bool setLocalStrictMode(bool strict) {
MOZ_ASSERT(tokenStream.debugHasNoLookahead());
return pc->sc()->setLocalStrictMode(strict);
}
const ReadOnlyCompileOptions& options() const {
return tokenStream.options();
}
private:
enum InvokedPrediction { PredictUninvoked = false, PredictInvoked = true };
enum ForInitLocation { InForInit, NotInForInit };
private:
/*
* JS parsers, from lowest to highest precedence.
*
* Each parser must be called during the dynamic scope of a ParseContext
* object, pointed to by this->pc.
*
* Each returns a parse node tree or null on error.
*
* Parsers whose name has a '1' suffix leave the TokenStream state
* pointing to the token one past the end of the parsed fragment. For a
* number of the parsers this is convenient and avoids a lot of
* unnecessary ungetting and regetting of tokens.
*
* Some parsers have two versions: an always-inlined version (with an 'i'
* suffix) and a never-inlined version (with an 'n' suffix).
*/
Node functionStmt(uint32_t preludeStart,
YieldHandling yieldHandling, DefaultHandling defaultHandling,
FunctionAsyncKind asyncKind = SyncFunction);
Node functionExpr(uint32_t preludeStart, InvokedPrediction invoked = PredictUninvoked,
FunctionAsyncKind asyncKind = SyncFunction);
Node statementList(YieldHandling yieldHandling);
Node blockStatement(YieldHandling yieldHandling,
unsigned errorNumber = JSMSG_CURLY_IN_COMPOUND);
Node doWhileStatement(YieldHandling yieldHandling);
Node whileStatement(YieldHandling yieldHandling);
Node forStatement(YieldHandling yieldHandling);
bool forHeadStart(YieldHandling yieldHandling,
ParseNodeKind* forHeadKind,
Node* forInitialPart,
mozilla::Maybe<ParseContext::Scope>& forLetImpliedScope,
Node* forInOrOfExpression);
bool validateForInOrOfLHSExpression(Node target, PossibleError* possibleError);
Node expressionAfterForInOrOf(ParseNodeKind forHeadKind, YieldHandling yieldHandling);
Node switchStatement(YieldHandling yieldHandling);
Node continueStatement(YieldHandling yieldHandling);
Node breakStatement(YieldHandling yieldHandling);
Node returnStatement(YieldHandling yieldHandling);
Node withStatement(YieldHandling yieldHandling);
Node throwStatement(YieldHandling yieldHandling);
Node tryStatement(YieldHandling yieldHandling);
Node catchBlockStatement(YieldHandling yieldHandling, ParseContext::Scope& catchParamScope);
Node debuggerStatement();
Node variableStatement(YieldHandling yieldHandling);
Node labeledStatement(YieldHandling yieldHandling);
Node labeledItem(YieldHandling yieldHandling);
Node ifStatement(YieldHandling yieldHandling);
Node consequentOrAlternative(YieldHandling yieldHandling);
// While on a |let| TOK_NAME token, examine |next|. Indicate whether
// |next|, the next token already gotten with modifier TokenStream::None,
// continues a LexicalDeclaration.
bool nextTokenContinuesLetDeclaration(TokenKind next, YieldHandling yieldHandling);
Node lexicalDeclaration(YieldHandling yieldHandling, bool isConst);
Node importDeclaration();
Node exportDeclaration();
Node expressionStatement(YieldHandling yieldHandling,
InvokedPrediction invoked = PredictUninvoked);
// Declaration parsing. The main entrypoint is Parser::declarationList,
// with sub-functionality split out into the remaining methods.
// |blockScope| may be non-null only when |kind| corresponds to a lexical
// declaration (that is, PNK_LET or PNK_CONST).
//
// The for* parameters, for normal declarations, should be null/ignored.
// They should be non-null only when Parser::forHeadStart parses a
// declaration at the start of a for-loop head.
//
// In this case, on success |*forHeadKind| is PNK_FORHEAD, PNK_FORIN, or
// PNK_FOROF, corresponding to the three for-loop kinds. The precise value
// indicates what was parsed.
//
// If parsing recognized a for(;;) loop, the next token is the ';' within
// the loop-head that separates the init/test parts.
//
// Otherwise, for for-in/of loops, the next token is the ')' ending the
// loop-head. Additionally, the expression that the loop iterates over was
// parsed into |*forInOrOfExpression|.
Node declarationList(YieldHandling yieldHandling,
ParseNodeKind kind,
ParseNodeKind* forHeadKind = nullptr,
Node* forInOrOfExpression = nullptr);
// The items in a declaration list are either patterns or names, with or
// without initializers. These two methods parse a single pattern/name and
// any associated initializer -- and if parsing an |initialDeclaration|
// will, if parsing in a for-loop head (as specified by |forHeadKind| being
// non-null), consume additional tokens up to the closing ')' in a
// for-in/of loop head, returning the iterated expression in
// |*forInOrOfExpression|. (An "initial declaration" is the first
// declaration in a declaration list: |a| but not |b| in |var a, b|, |{c}|
// but not |d| in |let {c} = 3, d|.)
Node declarationPattern(Node decl, DeclarationKind declKind, TokenKind tt,
bool initialDeclaration, YieldHandling yieldHandling,
ParseNodeKind* forHeadKind, Node* forInOrOfExpression);
Node declarationName(Node decl, DeclarationKind declKind, TokenKind tt,
bool initialDeclaration, YieldHandling yieldHandling,
ParseNodeKind* forHeadKind, Node* forInOrOfExpression);
// Having parsed a name (not found in a destructuring pattern) declared by
// a declaration, with the current token being the '=' separating the name
// from its initializer, parse and bind that initializer -- and possibly
// consume trailing in/of and subsequent expression, if so directed by
// |forHeadKind|.
bool initializerInNameDeclaration(Node decl, Node binding, Handle<PropertyName*> name,
DeclarationKind declKind, bool initialDeclaration,
YieldHandling yieldHandling, ParseNodeKind* forHeadKind,
Node* forInOrOfExpression);
Node expr(InHandling inHandling, YieldHandling yieldHandling,
TripledotHandling tripledotHandling, PossibleError* possibleError = nullptr,
InvokedPrediction invoked = PredictUninvoked);
Node assignExpr(InHandling inHandling, YieldHandling yieldHandling,
TripledotHandling tripledotHandling, PossibleError* possibleError = nullptr,
InvokedPrediction invoked = PredictUninvoked);
Node assignExprWithoutYieldOrAwait(YieldHandling yieldHandling);
Node yieldExpression(InHandling inHandling);
Node condExpr1(InHandling inHandling, YieldHandling yieldHandling,
TripledotHandling tripledotHandling,
PossibleError* possibleError,
InvokedPrediction invoked = PredictUninvoked);
Node orExpr1(InHandling inHandling, YieldHandling yieldHandling,
TripledotHandling tripledotHandling,
PossibleError* possibleError,
InvokedPrediction invoked = PredictUninvoked);
Node unaryExpr(YieldHandling yieldHandling, TripledotHandling tripledotHandling,
PossibleError* possibleError = nullptr,
InvokedPrediction invoked = PredictUninvoked);
Node memberExpr(YieldHandling yieldHandling, TripledotHandling tripledotHandling,
TokenKind tt, bool allowCallSyntax = true,
PossibleError* possibleError = nullptr,
InvokedPrediction invoked = PredictUninvoked);
Node primaryExpr(YieldHandling yieldHandling, TripledotHandling tripledotHandling,
TokenKind tt, PossibleError* possibleError,
InvokedPrediction invoked = PredictUninvoked);
Node exprInParens(InHandling inHandling, YieldHandling yieldHandling,
TripledotHandling tripledotHandling, PossibleError* possibleError = nullptr);
bool tryNewTarget(Node& newTarget);
bool checkAndMarkSuperScope();
Node methodDefinition(uint32_t preludeStart, PropertyType propType, HandleAtom funName);
/*
* Additional JS parsers.
*/
bool functionArguments(YieldHandling yieldHandling, FunctionSyntaxKind kind,
Node funcpn);
Node functionDefinition(uint32_t preludeStart,
InHandling inHandling, YieldHandling yieldHandling, HandleAtom name,
FunctionSyntaxKind kind,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind,
InvokedPrediction invoked = PredictUninvoked);
// Parse a function body. Pass StatementListBody if the body is a list of
// statements; pass ExpressionBody if the body is a single expression.
enum FunctionBodyType { StatementListBody, ExpressionBody };
Node functionBody(InHandling inHandling, YieldHandling yieldHandling, FunctionSyntaxKind kind,
FunctionBodyType type);
Node unaryOpExpr(YieldHandling yieldHandling, ParseNodeKind kind, JSOp op, uint32_t begin);
Node condition(InHandling inHandling, YieldHandling yieldHandling);
/* comprehensions */
Node generatorComprehensionLambda(unsigned begin);
Node comprehensionFor(GeneratorKind comprehensionKind);
Node comprehensionIf(GeneratorKind comprehensionKind);
Node comprehensionTail(GeneratorKind comprehensionKind);
Node comprehension(GeneratorKind comprehensionKind);
Node arrayComprehension(uint32_t begin);
Node generatorComprehension(uint32_t begin);
bool argumentList(YieldHandling yieldHandling, Node listNode, bool* isSpread,
PossibleError* possibleError = nullptr);
Node destructuringDeclaration(DeclarationKind kind, YieldHandling yieldHandling,
TokenKind tt);
Node destructuringDeclarationWithoutYieldOrAwait(DeclarationKind kind, YieldHandling yieldHandling,
TokenKind tt);
bool namedImportsOrNamespaceImport(TokenKind tt, Node importSpecSet);
bool checkExportedName(JSAtom* exportName);
bool checkExportedNamesForDeclaration(Node node);
enum ClassContext { ClassStatement, ClassExpression };
Node classDefinition(YieldHandling yieldHandling, ClassContext classContext,
DefaultHandling defaultHandling);
PropertyName* labelOrIdentifierReference(YieldHandling yieldHandling,
bool yieldTokenizedAsName);
PropertyName* labelIdentifier(YieldHandling yieldHandling) {
return labelOrIdentifierReference(yieldHandling, false);
}
PropertyName* identifierReference(YieldHandling yieldHandling,
bool yieldTokenizedAsName = false)
{
return labelOrIdentifierReference(yieldHandling, yieldTokenizedAsName);
}
PropertyName* importedBinding() {
return bindingIdentifier(YieldIsName);
}
Node identifierReference(Handle<PropertyName*> name);
bool matchLabel(YieldHandling yieldHandling, MutableHandle<PropertyName*> label);
bool allowsForEachIn() {
#if !JS_HAS_FOR_EACH_IN
return false;
#else
return versionNumber() >= JSVERSION_1_6;
#endif
}
enum AssignmentFlavor {
PlainAssignment,
CompoundAssignment,
KeyedDestructuringAssignment,
IncrementAssignment,
DecrementAssignment,
ForInOrOfTarget
};
bool checkAndMarkAsAssignmentLhs(Node pn, AssignmentFlavor flavor,
PossibleError* possibleError=nullptr);
bool matchInOrOf(bool* isForInp, bool* isForOfp);
bool hasUsedFunctionSpecialName(HandlePropertyName name);
bool declareFunctionArgumentsObject();
bool declareFunctionThis();
Node newInternalDotName(HandlePropertyName name);
Node newThisName();
Node newDotGeneratorName();
bool declareDotGeneratorName();
bool checkFunctionDefinition(HandleAtom funAtom, Node pn, FunctionSyntaxKind kind,
GeneratorKind generatorKind, bool* tryAnnexB);
bool skipLazyInnerFunction(Node pn, uint32_t preludeStart, FunctionSyntaxKind kind,
bool tryAnnexB);
bool innerFunction(Node pn, ParseContext* outerpc, HandleFunction fun, uint32_t preludeStart,
InHandling inHandling, YieldHandling yieldHandling,
FunctionSyntaxKind kind,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind, bool tryAnnexB,
Directives inheritedDirectives, Directives* newDirectives);
bool trySyntaxParseInnerFunction(Node pn, HandleFunction fun, uint32_t preludeStart,
InHandling inHandling, YieldHandling yieldHandling,
FunctionSyntaxKind kind,
GeneratorKind generatorKind, FunctionAsyncKind asyncKind,
bool tryAnnexB,
Directives inheritedDirectives, Directives* newDirectives);
bool finishFunctionScopes();
bool finishFunction();
bool leaveInnerFunction(ParseContext* outerpc);
public:
enum FunctionCallBehavior {
PermitAssignmentToFunctionCalls,
ForbidAssignmentToFunctionCalls
};
bool isValidSimpleAssignmentTarget(Node node,
FunctionCallBehavior behavior = ForbidAssignmentToFunctionCalls);
private:
bool reportIfArgumentsEvalTarget(Node nameNode);
bool reportIfNotValidSimpleAssignmentTarget(Node target, AssignmentFlavor flavor);
bool checkAndMarkAsIncOperand(Node kid, AssignmentFlavor flavor);
bool checkStrictAssignment(Node lhs);
bool checkStrictBinding(PropertyName* name, TokenPos pos);
bool hasValidSimpleStrictParameterNames();
bool isValidStrictBinding(PropertyName* name);
void reportRedeclaration(HandlePropertyName name, DeclarationKind kind, TokenPos pos);
bool notePositionalFormalParameter(Node fn, HandlePropertyName name,
bool disallowDuplicateParams, bool* duplicatedParam);
bool noteDestructuredPositionalFormalParameter(Node fn, Node destruct);
mozilla::Maybe<DeclarationKind> isVarRedeclaredInEval(HandlePropertyName name,
DeclarationKind kind);
bool tryDeclareVar(HandlePropertyName name, DeclarationKind kind,
mozilla::Maybe<DeclarationKind>* redeclaredKind);
bool tryDeclareVarForAnnexBLexicalFunction(HandlePropertyName name, bool* tryAnnexB);
bool checkLexicalDeclarationDirectlyWithinBlock(ParseContext::Statement& stmt,
DeclarationKind kind, TokenPos pos);
bool noteDeclaredName(HandlePropertyName name, DeclarationKind kind, TokenPos pos);
bool noteUsedName(HandlePropertyName name);
bool hasUsedName(HandlePropertyName name);
// Required on Scope exit.
bool propagateFreeNamesAndMarkClosedOverBindings(ParseContext::Scope& scope);
mozilla::Maybe<GlobalScope::Data*> newGlobalScopeData(ParseContext::Scope& scope);
mozilla::Maybe<ModuleScope::Data*> newModuleScopeData(ParseContext::Scope& scope);
mozilla::Maybe<EvalScope::Data*> newEvalScopeData(ParseContext::Scope& scope);
mozilla::Maybe<FunctionScope::Data*> newFunctionScopeData(ParseContext::Scope& scope,
bool hasParameterExprs);
mozilla::Maybe<VarScope::Data*> newVarScopeData(ParseContext::Scope& scope);
mozilla::Maybe<LexicalScope::Data*> newLexicalScopeData(ParseContext::Scope& scope);
Node finishLexicalScope(ParseContext::Scope& scope, Node body);
Node propertyName(YieldHandling yieldHandling, Node propList,
PropertyType* propType, MutableHandleAtom propAtom);
Node computedPropertyName(YieldHandling yieldHandling, Node literal);
Node arrayInitializer(YieldHandling yieldHandling, PossibleError* possibleError);
Node newRegExp();
Node objectLiteral(YieldHandling yieldHandling, PossibleError* possibleError);
// Top-level entrypoint into destructuring pattern checking/name-analyzing.
bool checkDestructuringPattern(Node pattern, mozilla::Maybe<DeclarationKind> maybeDecl,
PossibleError* possibleError = nullptr);
// Recursive methods for checking/name-analyzing subcomponents of a
// destructuring pattern. The array/object methods *must* be passed arrays
// or objects. The name method may be passed anything but will report an
// error if not passed a name.
bool checkDestructuringArray(Node arrayPattern, mozilla::Maybe<DeclarationKind> maybeDecl);
bool checkDestructuringObject(Node objectPattern, mozilla::Maybe<DeclarationKind> maybeDecl);
bool checkDestructuringName(Node expr, mozilla::Maybe<DeclarationKind> maybeDecl);
bool checkAssignmentToCall(Node node, unsigned errnum);
Node newNumber(const Token& tok) {
return handler.newNumber(tok.number(), tok.decimalPoint(), tok.pos);
}
static Node null() { return ParseHandler::null(); }
bool reportBadReturn(Node pn, ParseReportKind kind, unsigned errnum, unsigned anonerrnum);
JSAtom* prefixAccessorName(PropertyType propType, HandleAtom propAtom);
TokenPos pos() const { return tokenStream.currentToken().pos; }
bool asmJS(Node list);
bool warnOnceAboutExprClosure();
bool warnOnceAboutForEach();
};
} /* namespace frontend */
} /* namespace js */
#endif /* frontend_Parser_h */
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