| // Copyright 2012 the V8 project authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #ifndef V8_AST_SCOPES_H_ |
| #define V8_AST_SCOPES_H_ |
| |
| #include "src/ast/ast.h" |
| #include "src/base/compiler-specific.h" |
| #include "src/base/hashmap.h" |
| #include "src/globals.h" |
| #include "src/objects.h" |
| #include "src/zone/zone.h" |
| |
| namespace v8 { |
| namespace internal { |
| |
| class AstNodeFactory; |
| class AstValueFactory; |
| class AstRawString; |
| class Declaration; |
| class ParseInfo; |
| class PreParsedScopeData; |
| class ProducedPreParsedScopeData; |
| class SloppyBlockFunctionStatement; |
| class Statement; |
| class StringSet; |
| class VariableProxy; |
| |
| // A hash map to support fast variable declaration and lookup. |
| class VariableMap: public ZoneHashMap { |
| public: |
| explicit VariableMap(Zone* zone); |
| |
| Variable* Declare( |
| Zone* zone, Scope* scope, const AstRawString* name, VariableMode mode, |
| VariableKind kind = NORMAL_VARIABLE, |
| InitializationFlag initialization_flag = kCreatedInitialized, |
| MaybeAssignedFlag maybe_assigned_flag = kNotAssigned, |
| bool* added = nullptr); |
| |
| // Records that "name" exists (if not recorded yet) but doesn't create a |
| // Variable. Useful for preparsing. |
| Variable* DeclareName(Zone* zone, const AstRawString* name, |
| VariableMode mode); |
| |
| Variable* Lookup(const AstRawString* name); |
| void Remove(Variable* var); |
| void Add(Zone* zone, Variable* var); |
| }; |
| |
| |
| // Sloppy block-scoped function declarations to var-bind |
| class SloppyBlockFunctionMap : public ZoneHashMap { |
| public: |
| class Delegate : public ZoneObject { |
| public: |
| Delegate(Scope* scope, SloppyBlockFunctionStatement* statement, int index) |
| : scope_(scope), statement_(statement), next_(nullptr), index_(index) {} |
| void set_statement(Statement* statement); |
| void set_next(Delegate* next) { next_ = next; } |
| Delegate* next() const { return next_; } |
| Scope* scope() const { return scope_; } |
| int index() const { return index_; } |
| |
| private: |
| Scope* scope_; |
| SloppyBlockFunctionStatement* statement_; |
| Delegate* next_; |
| int index_; |
| }; |
| |
| explicit SloppyBlockFunctionMap(Zone* zone); |
| void Declare(Zone* zone, const AstRawString* name, Scope* scope, |
| SloppyBlockFunctionStatement* statement); |
| |
| private: |
| int count_; |
| }; |
| |
| enum class AnalyzeMode { kRegular, kDebugger }; |
| |
| // Global invariants after AST construction: Each reference (i.e. identifier) |
| // to a JavaScript variable (including global properties) is represented by a |
| // VariableProxy node. Immediately after AST construction and before variable |
| // allocation, most VariableProxy nodes are "unresolved", i.e. not bound to a |
| // corresponding variable (though some are bound during parse time). Variable |
| // allocation binds each unresolved VariableProxy to one Variable and assigns |
| // a location. Note that many VariableProxy nodes may refer to the same Java- |
| // Script variable. |
| |
| // JS environments are represented in the parser using Scope, DeclarationScope |
| // and ModuleScope. DeclarationScope is used for any scope that hosts 'var' |
| // declarations. This includes script, module, eval, varblock, and function |
| // scope. ModuleScope further specializes DeclarationScope. |
| class V8_EXPORT_PRIVATE Scope : public NON_EXPORTED_BASE(ZoneObject) { |
| public: |
| // --------------------------------------------------------------------------- |
| // Construction |
| |
| Scope(Zone* zone, Scope* outer_scope, ScopeType scope_type); |
| |
| #ifdef DEBUG |
| // The scope name is only used for printing/debugging. |
| void SetScopeName(const AstRawString* scope_name) { |
| scope_name_ = scope_name; |
| } |
| void set_needs_migration() { needs_migration_ = true; } |
| #endif |
| |
| // TODO(verwaest): Is this needed on Scope? |
| int num_parameters() const; |
| |
| DeclarationScope* AsDeclarationScope(); |
| const DeclarationScope* AsDeclarationScope() const; |
| ModuleScope* AsModuleScope(); |
| const ModuleScope* AsModuleScope() const; |
| |
| class Snapshot final BASE_EMBEDDED { |
| public: |
| explicit Snapshot(Scope* scope); |
| ~Snapshot(); |
| |
| void Reparent(DeclarationScope* new_parent) const; |
| |
| private: |
| Scope* outer_scope_; |
| Scope* top_inner_scope_; |
| VariableProxy* top_unresolved_; |
| ThreadedList<Variable>::Iterator top_local_; |
| ThreadedList<Declaration>::Iterator top_decl_; |
| const bool outer_scope_calls_eval_; |
| }; |
| |
| enum class DeserializationMode { kIncludingVariables, kScopesOnly }; |
| |
| static Scope* DeserializeScopeChain(Zone* zone, ScopeInfo* scope_info, |
| DeclarationScope* script_scope, |
| AstValueFactory* ast_value_factory, |
| DeserializationMode deserialization_mode); |
| |
| // Checks if the block scope is redundant, i.e. it does not contain any |
| // block scoped declarations. In that case it is removed from the scope |
| // tree and its children are reparented. |
| Scope* FinalizeBlockScope(); |
| |
| bool HasBeenRemoved() const; |
| |
| // Find the first scope that hasn't been removed. |
| Scope* GetUnremovedScope(); |
| |
| // Inserts outer_scope into this scope's scope chain (and removes this |
| // from the current outer_scope_'s inner scope list). |
| // Assumes outer_scope_ is non-null. |
| void ReplaceOuterScope(Scope* outer_scope); |
| |
| Zone* zone() const { return zone_; } |
| |
| void SetMustUsePreParsedScopeData() { |
| if (must_use_preparsed_scope_data_) { |
| return; |
| } |
| must_use_preparsed_scope_data_ = true; |
| if (outer_scope_) { |
| outer_scope_->SetMustUsePreParsedScopeData(); |
| } |
| } |
| |
| bool must_use_preparsed_scope_data() const { |
| return must_use_preparsed_scope_data_; |
| } |
| |
| // --------------------------------------------------------------------------- |
| // Declarations |
| |
| // Lookup a variable in this scope. Returns the variable or nullptr if not |
| // found. |
| Variable* LookupLocal(const AstRawString* name) { |
| Variable* result = variables_.Lookup(name); |
| if (result != nullptr || scope_info_.is_null()) return result; |
| return LookupInScopeInfo(name); |
| } |
| |
| Variable* LookupInScopeInfo(const AstRawString* name); |
| |
| // Lookup a variable in this scope or outer scopes. |
| // Returns the variable or nullptr if not found. |
| Variable* Lookup(const AstRawString* name); |
| |
| // Declare a local variable in this scope. If the variable has been |
| // declared before, the previously declared variable is returned. |
| Variable* DeclareLocal(const AstRawString* name, VariableMode mode, |
| InitializationFlag init_flag = kCreatedInitialized, |
| VariableKind kind = NORMAL_VARIABLE, |
| MaybeAssignedFlag maybe_assigned_flag = kNotAssigned); |
| |
| Variable* DeclareVariable(Declaration* declaration, VariableMode mode, |
| InitializationFlag init, |
| bool* sloppy_mode_block_scope_function_redefinition, |
| bool* ok); |
| |
| // The return value is meaningful only if FLAG_preparser_scope_analysis is on. |
| Variable* DeclareVariableName(const AstRawString* name, VariableMode mode); |
| void DeclareCatchVariableName(const AstRawString* name); |
| |
| // Declarations list. |
| ThreadedList<Declaration>* declarations() { return &decls_; } |
| |
| ThreadedList<Variable>* locals() { return &locals_; } |
| |
| // Create a new unresolved variable. |
| VariableProxy* NewUnresolved(AstNodeFactory* factory, |
| const AstRawString* name, |
| int start_pos = kNoSourcePosition, |
| VariableKind kind = NORMAL_VARIABLE) { |
| // Note that we must not share the unresolved variables with |
| // the same name because they may be removed selectively via |
| // RemoveUnresolved(). |
| DCHECK(!already_resolved_); |
| DCHECK_EQ(factory->zone(), zone()); |
| VariableProxy* proxy = factory->NewVariableProxy(name, kind, start_pos); |
| proxy->set_next_unresolved(unresolved_); |
| unresolved_ = proxy; |
| return proxy; |
| } |
| |
| void AddUnresolved(VariableProxy* proxy); |
| |
| // Remove a unresolved variable. During parsing, an unresolved variable |
| // may have been added optimistically, but then only the variable name |
| // was used (typically for labels). If the variable was not declared, the |
| // addition introduced a new unresolved variable which may end up being |
| // allocated globally as a "ghost" variable. RemoveUnresolved removes |
| // such a variable again if it was added; otherwise this is a no-op. |
| bool RemoveUnresolved(VariableProxy* var); |
| |
| // Creates a new temporary variable in this scope's TemporaryScope. The |
| // name is only used for printing and cannot be used to find the variable. |
| // In particular, the only way to get hold of the temporary is by keeping the |
| // Variable* around. The name should not clash with a legitimate variable |
| // names. |
| // TODO(verwaest): Move to DeclarationScope? |
| Variable* NewTemporary(const AstRawString* name); |
| |
| // --------------------------------------------------------------------------- |
| // Illegal redeclaration support. |
| |
| // Check if the scope has conflicting var |
| // declarations, i.e. a var declaration that has been hoisted from a nested |
| // scope over a let binding of the same name. |
| Declaration* CheckConflictingVarDeclarations(); |
| |
| // Check if the scope has a conflicting lexical declaration that has a name in |
| // the given list. This is used to catch patterns like |
| // `try{}catch(e){let e;}`, |
| // which is an error even though the two 'e's are declared in different |
| // scopes. |
| Declaration* CheckLexDeclarationsConflictingWith( |
| const ZoneList<const AstRawString*>& names); |
| |
| // --------------------------------------------------------------------------- |
| // Scope-specific info. |
| |
| // Inform the scope and outer scopes that the corresponding code contains an |
| // eval call. |
| void RecordEvalCall() { |
| scope_calls_eval_ = true; |
| } |
| |
| void RecordInnerScopeEvalCall() { |
| inner_scope_calls_eval_ = true; |
| for (Scope* scope = outer_scope(); scope != nullptr; |
| scope = scope->outer_scope()) { |
| if (scope->inner_scope_calls_eval_) { |
| return; |
| } |
| scope->inner_scope_calls_eval_ = true; |
| } |
| } |
| |
| // Set the language mode flag (unless disabled by a global flag). |
| void SetLanguageMode(LanguageMode language_mode) { |
| DCHECK(!is_module_scope() || is_strict(language_mode)); |
| set_language_mode(language_mode); |
| } |
| |
| // Inform the scope that the scope may execute declarations nonlinearly. |
| // Currently, the only nonlinear scope is a switch statement. The name is |
| // more general in case something else comes up with similar control flow, |
| // for example the ability to break out of something which does not have |
| // its own lexical scope. |
| // The bit does not need to be stored on the ScopeInfo because none of |
| // the three compilers will perform hole check elimination on a variable |
| // located in VariableLocation::CONTEXT. So, direct eval and closures |
| // will not expose holes. |
| void SetNonlinear() { scope_nonlinear_ = true; } |
| |
| // Position in the source where this scope begins and ends. |
| // |
| // * For the scope of a with statement |
| // with (obj) stmt |
| // start position: start position of first token of 'stmt' |
| // end position: end position of last token of 'stmt' |
| // * For the scope of a block |
| // { stmts } |
| // start position: start position of '{' |
| // end position: end position of '}' |
| // * For the scope of a function literal or decalaration |
| // function fun(a,b) { stmts } |
| // start position: start position of '(' |
| // end position: end position of '}' |
| // * For the scope of a catch block |
| // try { stms } catch(e) { stmts } |
| // start position: start position of '(' |
| // end position: end position of ')' |
| // * For the scope of a for-statement |
| // for (let x ...) stmt |
| // start position: start position of '(' |
| // end position: end position of last token of 'stmt' |
| // * For the scope of a switch statement |
| // switch (tag) { cases } |
| // start position: start position of '{' |
| // end position: end position of '}' |
| int start_position() const { return start_position_; } |
| void set_start_position(int statement_pos) { |
| start_position_ = statement_pos; |
| } |
| int end_position() const { return end_position_; } |
| void set_end_position(int statement_pos) { |
| end_position_ = statement_pos; |
| } |
| |
| // Scopes created for desugaring are hidden. I.e. not visible to the debugger. |
| bool is_hidden() const { return is_hidden_; } |
| void set_is_hidden() { is_hidden_ = true; } |
| |
| void ForceContextAllocationForParameters() { |
| DCHECK(!already_resolved_); |
| force_context_allocation_for_parameters_ = true; |
| } |
| bool has_forced_context_allocation_for_parameters() const { |
| return force_context_allocation_for_parameters_; |
| } |
| |
| // --------------------------------------------------------------------------- |
| // Predicates. |
| |
| // Specific scope types. |
| bool is_eval_scope() const { return scope_type_ == EVAL_SCOPE; } |
| bool is_function_scope() const { return scope_type_ == FUNCTION_SCOPE; } |
| bool is_module_scope() const { return scope_type_ == MODULE_SCOPE; } |
| bool is_script_scope() const { return scope_type_ == SCRIPT_SCOPE; } |
| bool is_catch_scope() const { return scope_type_ == CATCH_SCOPE; } |
| bool is_block_scope() const { return scope_type_ == BLOCK_SCOPE; } |
| bool is_with_scope() const { return scope_type_ == WITH_SCOPE; } |
| bool is_declaration_scope() const { return is_declaration_scope_; } |
| |
| bool inner_scope_calls_eval() const { return inner_scope_calls_eval_; } |
| bool IsAsmModule() const; |
| // Returns true if this scope or any inner scopes that might be eagerly |
| // compiled are asm modules. |
| bool ContainsAsmModule() const; |
| // Does this scope have the potential to execute declarations non-linearly? |
| bool is_nonlinear() const { return scope_nonlinear_; } |
| |
| // Whether this needs to be represented by a runtime context. |
| bool NeedsContext() const { |
| // Catch scopes always have heap slots. |
| DCHECK(!is_catch_scope() || num_heap_slots() > 0); |
| return num_heap_slots() > 0; |
| } |
| |
| // --------------------------------------------------------------------------- |
| // Accessors. |
| |
| // The type of this scope. |
| ScopeType scope_type() const { return scope_type_; } |
| |
| // The language mode of this scope. |
| LanguageMode language_mode() const { |
| return is_strict_ ? LanguageMode::kStrict : LanguageMode::kSloppy; |
| } |
| |
| // inner_scope() and sibling() together implement the inner scope list of a |
| // scope. Inner scope points to the an inner scope of the function, and |
| // "sibling" points to a next inner scope of the outer scope of this scope. |
| Scope* inner_scope() const { return inner_scope_; } |
| Scope* sibling() const { return sibling_; } |
| |
| // The scope immediately surrounding this scope, or nullptr. |
| Scope* outer_scope() const { return outer_scope_; } |
| |
| Variable* catch_variable() const { |
| DCHECK(is_catch_scope()); |
| DCHECK_EQ(1, num_var()); |
| return static_cast<Variable*>(variables_.Start()->value); |
| } |
| |
| bool ShouldBanArguments(); |
| |
| // --------------------------------------------------------------------------- |
| // Variable allocation. |
| |
| // Result of variable allocation. |
| int num_stack_slots() const { return num_stack_slots_; } |
| int num_heap_slots() const { return num_heap_slots_; } |
| |
| int StackLocalCount() const; |
| int ContextLocalCount() const; |
| |
| // Determine if we can parse a function literal in this scope lazily without |
| // caring about the unresolved variables within. |
| bool AllowsLazyParsingWithoutUnresolvedVariables(const Scope* outer) const; |
| |
| // The number of contexts between this and scope; zero if this == scope. |
| int ContextChainLength(Scope* scope) const; |
| |
| // The number of contexts between this and the outermost context that has a |
| // sloppy eval call. One if this->calls_sloppy_eval(). |
| int ContextChainLengthUntilOutermostSloppyEval() const; |
| |
| // Find the first function, script, eval or (declaration) block scope. This is |
| // the scope where var declarations will be hoisted to in the implementation. |
| DeclarationScope* GetDeclarationScope(); |
| |
| // Find the first non-block declaration scope. This should be either a script, |
| // function, or eval scope. Same as DeclarationScope(), but skips declaration |
| // "block" scopes. Used for differentiating associated function objects (i.e., |
| // the scope for which a function prologue allocates a context) or declaring |
| // temporaries. |
| DeclarationScope* GetClosureScope(); |
| const DeclarationScope* GetClosureScope() const; |
| |
| // Find the first (non-arrow) function or script scope. This is where |
| // 'this' is bound, and what determines the function kind. |
| DeclarationScope* GetReceiverScope(); |
| |
| // Find the innermost outer scope that needs a context. |
| Scope* GetOuterScopeWithContext(); |
| |
| // Analyze() must have been called once to create the ScopeInfo. |
| Handle<ScopeInfo> scope_info() const { |
| DCHECK(!scope_info_.is_null()); |
| return scope_info_; |
| } |
| |
| int num_var() const { return variables_.occupancy(); } |
| |
| // --------------------------------------------------------------------------- |
| // Debugging. |
| |
| #ifdef DEBUG |
| void Print(int n = 0); // n = indentation; n < 0 => don't print recursively |
| |
| // Check that the scope has positions assigned. |
| void CheckScopePositions(); |
| |
| // Check that all Scopes in the scope tree use the same Zone. |
| void CheckZones(); |
| #endif |
| |
| // Retrieve `IsSimpleParameterList` of current or outer function. |
| bool HasSimpleParameters(); |
| void set_is_debug_evaluate_scope() { is_debug_evaluate_scope_ = true; } |
| bool is_debug_evaluate_scope() const { return is_debug_evaluate_scope_; } |
| |
| bool RemoveInnerScope(Scope* inner_scope) { |
| DCHECK_NOT_NULL(inner_scope); |
| if (inner_scope == inner_scope_) { |
| inner_scope_ = inner_scope_->sibling_; |
| return true; |
| } |
| for (Scope* scope = inner_scope_; scope != nullptr; |
| scope = scope->sibling_) { |
| if (scope->sibling_ == inner_scope) { |
| scope->sibling_ = scope->sibling_->sibling_; |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| protected: |
| explicit Scope(Zone* zone); |
| |
| void set_language_mode(LanguageMode language_mode) { |
| is_strict_ = is_strict(language_mode); |
| } |
| |
| private: |
| Variable* Declare( |
| Zone* zone, const AstRawString* name, VariableMode mode, |
| VariableKind kind = NORMAL_VARIABLE, |
| InitializationFlag initialization_flag = kCreatedInitialized, |
| MaybeAssignedFlag maybe_assigned_flag = kNotAssigned); |
| |
| // This method should only be invoked on scopes created during parsing (i.e., |
| // not deserialized from a context). Also, since NeedsContext() is only |
| // returning a valid result after variables are resolved, NeedsScopeInfo() |
| // should also be invoked after resolution. |
| bool NeedsScopeInfo() const; |
| |
| Variable* NewTemporary(const AstRawString* name, |
| MaybeAssignedFlag maybe_assigned); |
| |
| // Walk the scope chain to find DeclarationScopes; call |
| // SavePreParsedScopeDataForDeclarationScope for each. |
| void SavePreParsedScopeData(); |
| |
| Zone* zone_; |
| |
| // Scope tree. |
| Scope* outer_scope_; // the immediately enclosing outer scope, or nullptr |
| Scope* inner_scope_; // an inner scope of this scope |
| Scope* sibling_; // a sibling inner scope of the outer scope of this scope. |
| |
| // The variables declared in this scope: |
| // |
| // All user-declared variables (incl. parameters). For script scopes |
| // variables may be implicitly 'declared' by being used (possibly in |
| // an inner scope) with no intervening with statements or eval calls. |
| VariableMap variables_; |
| // In case of non-scopeinfo-backed scopes, this contains the variables of the |
| // map above in order of addition. |
| ThreadedList<Variable> locals_; |
| // Unresolved variables referred to from this scope. The proxies themselves |
| // form a linked list of all unresolved proxies. |
| VariableProxy* unresolved_; |
| // Declarations. |
| ThreadedList<Declaration> decls_; |
| |
| // Serialized scope info support. |
| Handle<ScopeInfo> scope_info_; |
| // Debugging support. |
| #ifdef DEBUG |
| const AstRawString* scope_name_; |
| |
| // True if it doesn't need scope resolution (e.g., if the scope was |
| // constructed based on a serialized scope info or a catch context). |
| bool already_resolved_; |
| // True if this scope may contain objects from a temp zone that needs to be |
| // fixed up. |
| bool needs_migration_; |
| #endif |
| |
| // Source positions. |
| int start_position_; |
| int end_position_; |
| |
| // Computed via AllocateVariables. |
| int num_stack_slots_; |
| int num_heap_slots_; |
| |
| // The scope type. |
| const ScopeType scope_type_; |
| |
| // Scope-specific information computed during parsing. |
| // |
| // The language mode of this scope. |
| STATIC_ASSERT(LanguageModeSize == 2); |
| bool is_strict_ : 1; |
| // This scope or a nested catch scope or with scope contain an 'eval' call. At |
| // the 'eval' call site this scope is the declaration scope. |
| bool scope_calls_eval_ : 1; |
| // This scope's declarations might not be executed in order (e.g., switch). |
| bool scope_nonlinear_ : 1; |
| bool is_hidden_ : 1; |
| // Temporary workaround that allows masking of 'this' in debug-evalute scopes. |
| bool is_debug_evaluate_scope_ : 1; |
| |
| // True if one of the inner scopes or the scope itself calls eval. |
| bool inner_scope_calls_eval_ : 1; |
| bool force_context_allocation_ : 1; |
| bool force_context_allocation_for_parameters_ : 1; |
| |
| // True if it holds 'var' declarations. |
| bool is_declaration_scope_ : 1; |
| |
| bool must_use_preparsed_scope_data_ : 1; |
| |
| // Create a non-local variable with a given name. |
| // These variables are looked up dynamically at runtime. |
| Variable* NonLocal(const AstRawString* name, VariableMode mode); |
| |
| // Variable resolution. |
| // Lookup a variable reference given by name recursively starting with this |
| // scope, and stopping when reaching the outer_scope_end scope. If the code is |
| // executed because of a call to 'eval', the context parameter should be set |
| // to the calling context of 'eval'. |
| Variable* LookupRecursive(VariableProxy* proxy, Scope* outer_scope_end); |
| void ResolveTo(ParseInfo* info, VariableProxy* proxy, Variable* var); |
| void ResolveVariable(ParseInfo* info, VariableProxy* proxy); |
| void ResolveVariablesRecursively(ParseInfo* info); |
| |
| // Finds free variables of this scope. This mutates the unresolved variables |
| // list along the way, so full resolution cannot be done afterwards. |
| // If a ParseInfo* is passed, non-free variables will be resolved. |
| VariableProxy* FetchFreeVariables(DeclarationScope* max_outer_scope, |
| ParseInfo* info = nullptr, |
| VariableProxy* stack = nullptr); |
| |
| // Predicates. |
| bool MustAllocate(Variable* var); |
| bool MustAllocateInContext(Variable* var); |
| |
| // Variable allocation. |
| void AllocateStackSlot(Variable* var); |
| void AllocateHeapSlot(Variable* var); |
| void AllocateNonParameterLocal(Variable* var); |
| void AllocateDeclaredGlobal(Variable* var); |
| void AllocateNonParameterLocalsAndDeclaredGlobals(); |
| void AllocateVariablesRecursively(); |
| |
| void AllocateScopeInfosRecursively(Isolate* isolate, |
| MaybeHandle<ScopeInfo> outer_scope); |
| void AllocateDebuggerScopeInfos(Isolate* isolate, |
| MaybeHandle<ScopeInfo> outer_scope); |
| |
| // Construct a scope based on the scope info. |
| Scope(Zone* zone, ScopeType type, Handle<ScopeInfo> scope_info); |
| |
| // Construct a catch scope with a binding for the name. |
| Scope(Zone* zone, const AstRawString* catch_variable_name, |
| MaybeAssignedFlag maybe_assigned, Handle<ScopeInfo> scope_info); |
| |
| void AddInnerScope(Scope* inner_scope) { |
| inner_scope->sibling_ = inner_scope_; |
| inner_scope_ = inner_scope; |
| inner_scope->outer_scope_ = this; |
| } |
| |
| void SetDefaults(); |
| |
| friend class DeclarationScope; |
| friend class ScopeTestHelper; |
| }; |
| |
| class V8_EXPORT_PRIVATE DeclarationScope : public Scope { |
| public: |
| DeclarationScope(Zone* zone, Scope* outer_scope, ScopeType scope_type, |
| FunctionKind function_kind = kNormalFunction); |
| DeclarationScope(Zone* zone, ScopeType scope_type, |
| Handle<ScopeInfo> scope_info); |
| // Creates a script scope. |
| DeclarationScope(Zone* zone, AstValueFactory* ast_value_factory); |
| |
| bool IsDeclaredParameter(const AstRawString* name) { |
| // If IsSimpleParameterList is false, duplicate parameters are not allowed, |
| // however `arguments` may be allowed if function is not strict code. Thus, |
| // the assumptions explained above do not hold. |
| return params_.Contains(variables_.Lookup(name)); |
| } |
| |
| FunctionKind function_kind() const { return function_kind_; } |
| |
| bool is_arrow_scope() const { |
| return is_function_scope() && IsArrowFunction(function_kind_); |
| } |
| |
| // Inform the scope that the corresponding code uses "super". |
| void RecordSuperPropertyUsage() { |
| DCHECK(IsConciseMethod(function_kind()) || |
| IsAccessorFunction(function_kind()) || |
| IsClassConstructor(function_kind())); |
| scope_uses_super_property_ = true; |
| } |
| |
| // Does this scope access "super" property (super.foo). |
| bool NeedsHomeObject() const { |
| return scope_uses_super_property_ || |
| (inner_scope_calls_eval_ && (IsConciseMethod(function_kind()) || |
| IsAccessorFunction(function_kind()) || |
| IsClassConstructor(function_kind()))); |
| } |
| |
| bool calls_sloppy_eval() const { |
| return scope_calls_eval_ && is_sloppy(language_mode()); |
| } |
| |
| bool was_lazily_parsed() const { return was_lazily_parsed_; } |
| |
| #ifdef DEBUG |
| void set_is_being_lazily_parsed(bool is_being_lazily_parsed) { |
| is_being_lazily_parsed_ = is_being_lazily_parsed; |
| } |
| bool is_being_lazily_parsed() const { return is_being_lazily_parsed_; } |
| #endif |
| |
| bool ShouldEagerCompile() const; |
| void set_should_eager_compile(); |
| |
| void SetScriptScopeInfo(Handle<ScopeInfo> scope_info) { |
| DCHECK(is_script_scope()); |
| DCHECK(scope_info_.is_null()); |
| scope_info_ = scope_info; |
| } |
| |
| bool asm_module() const { return asm_module_; } |
| void set_asm_module(); |
| |
| bool should_ban_arguments() const { |
| return IsClassFieldsInitializerFunction(function_kind()); |
| } |
| |
| void DeclareThis(AstValueFactory* ast_value_factory); |
| void DeclareArguments(AstValueFactory* ast_value_factory); |
| void DeclareDefaultFunctionVariables(AstValueFactory* ast_value_factory); |
| |
| // Declare the function variable for a function literal. This variable |
| // is in an intermediate scope between this function scope and the the |
| // outer scope. Only possible for function scopes; at most one variable. |
| // |
| // This function needs to be called after all other variables have been |
| // declared in the scope. It will add a variable for {name} to {variables_}; |
| // either the function variable itself, or a non-local in case the function |
| // calls sloppy eval. |
| Variable* DeclareFunctionVar(const AstRawString* name); |
| |
| // Declare some special internal variables which must be accessible to |
| // Ignition without ScopeInfo. |
| Variable* DeclareGeneratorObjectVar(const AstRawString* name); |
| Variable* DeclarePromiseVar(const AstRawString* name); |
| |
| // Declare a parameter in this scope. When there are duplicated |
| // parameters the rightmost one 'wins'. However, the implementation |
| // expects all parameters to be declared and from left to right. |
| Variable* DeclareParameter(const AstRawString* name, VariableMode mode, |
| bool is_optional, bool is_rest, bool* is_duplicate, |
| AstValueFactory* ast_value_factory, int position); |
| |
| // Declares that a parameter with the name exists. Creates a Variable and |
| // returns it if FLAG_preparser_scope_analysis is on. |
| Variable* DeclareParameterName(const AstRawString* name, bool is_rest, |
| AstValueFactory* ast_value_factory, |
| bool declare_local, bool add_parameter); |
| |
| // Declare an implicit global variable in this scope which must be a |
| // script scope. The variable was introduced (possibly from an inner |
| // scope) by a reference to an unresolved variable with no intervening |
| // with statements or eval calls. |
| Variable* DeclareDynamicGlobal(const AstRawString* name, |
| VariableKind variable_kind); |
| |
| // The variable corresponding to the 'this' value. |
| Variable* receiver() { |
| DCHECK(has_this_declaration()); |
| DCHECK_NOT_NULL(receiver_); |
| return receiver_; |
| } |
| |
| // TODO(wingo): Add a GLOBAL_SCOPE scope type which will lexically allocate |
| // "this" (and no other variable) on the native context. Script scopes then |
| // will not have a "this" declaration. |
| bool has_this_declaration() const { |
| return (is_function_scope() && !is_arrow_scope()) || is_module_scope(); |
| } |
| |
| // The variable corresponding to the 'new.target' value. |
| Variable* new_target_var() { return new_target_; } |
| |
| // The variable holding the function literal for named function |
| // literals, or nullptr. Only valid for function scopes. |
| Variable* function_var() const { return function_; } |
| |
| Variable* generator_object_var() const { |
| DCHECK(is_function_scope() || is_module_scope()); |
| return GetRareVariable(RareVariable::kGeneratorObject); |
| } |
| |
| Variable* promise_var() const { |
| DCHECK(is_function_scope()); |
| DCHECK(IsAsyncFunction(function_kind_)); |
| if (IsAsyncGeneratorFunction(function_kind_)) return nullptr; |
| return GetRareVariable(RareVariable::kPromise); |
| } |
| |
| // Parameters. The left-most parameter has index 0. |
| // Only valid for function and module scopes. |
| Variable* parameter(int index) const { |
| DCHECK(is_function_scope() || is_module_scope()); |
| return params_[index]; |
| } |
| |
| // Returns the number of formal parameters, excluding a possible rest |
| // parameter. Examples: |
| // function foo(a, b) {} ==> 2 |
| // function foo(a, b, ...c) {} ==> 2 |
| // function foo(a, b, c = 1) {} ==> 3 |
| int num_parameters() const { |
| return has_rest_ ? params_.length() - 1 : params_.length(); |
| } |
| |
| // The function's rest parameter (nullptr if there is none). |
| Variable* rest_parameter() const { |
| return has_rest_ ? params_[params_.length() - 1] : nullptr; |
| } |
| |
| bool has_simple_parameters() const { return has_simple_parameters_; } |
| |
| // TODO(caitp): manage this state in a better way. PreParser must be able to |
| // communicate that the scope is non-simple, without allocating any parameters |
| // as the Parser does. This is necessary to ensure that TC39's proposed early |
| // error can be reported consistently regardless of whether lazily parsed or |
| // not. |
| void SetHasNonSimpleParameters() { |
| DCHECK(is_function_scope()); |
| has_simple_parameters_ = false; |
| } |
| |
| // The local variable 'arguments' if we need to allocate it; nullptr |
| // otherwise. |
| Variable* arguments() const { |
| DCHECK(!is_arrow_scope() || arguments_ == nullptr); |
| return arguments_; |
| } |
| |
| Variable* this_function_var() const { |
| Variable* this_function = GetRareVariable(RareVariable::kThisFunction); |
| |
| // This is only used in derived constructors atm. |
| DCHECK(this_function == nullptr || |
| (is_function_scope() && (IsClassConstructor(function_kind()) || |
| IsConciseMethod(function_kind()) || |
| IsAccessorFunction(function_kind())))); |
| return this_function; |
| } |
| |
| // Adds a local variable in this scope's locals list. This is for adjusting |
| // the scope of temporaries and do-expression vars when desugaring parameter |
| // initializers. |
| void AddLocal(Variable* var); |
| |
| void DeclareSloppyBlockFunction( |
| const AstRawString* name, Scope* scope, |
| SloppyBlockFunctionStatement* statement = nullptr); |
| |
| // Go through sloppy_block_function_map_ and hoist those (into this scope) |
| // which should be hoisted. |
| void HoistSloppyBlockFunctions(AstNodeFactory* factory); |
| |
| SloppyBlockFunctionMap* sloppy_block_function_map() { |
| return sloppy_block_function_map_; |
| } |
| |
| // Replaces the outer scope with the outer_scope_info in |info| if there is |
| // one. |
| void AttachOuterScopeInfo(ParseInfo* info, Isolate* isolate); |
| |
| // Compute top scope and allocate variables. For lazy compilation the top |
| // scope only contains the single lazily compiled function, so this |
| // doesn't re-allocate variables repeatedly. |
| static void Analyze(ParseInfo* info); |
| |
| // To be called during parsing. Do just enough scope analysis that we can |
| // discard the Scope contents for lazily compiled functions. In particular, |
| // this records variables which cannot be resolved inside the Scope (we don't |
| // yet know what they will resolve to since the outer Scopes are incomplete) |
| // and recreates them with the correct Zone with ast_node_factory. |
| void AnalyzePartially(AstNodeFactory* ast_node_factory); |
| |
| // Allocate ScopeInfos for top scope and any inner scopes that need them. |
| // Does nothing if ScopeInfo is already allocated. |
| static void AllocateScopeInfos(ParseInfo* info, Isolate* isolate, |
| AnalyzeMode mode); |
| |
| Handle<StringSet> CollectNonLocals(ParseInfo* info, |
| Handle<StringSet> non_locals); |
| |
| // Determine if we can use lazy compilation for this scope. |
| bool AllowsLazyCompilation() const; |
| |
| // Make sure this closure and all outer closures are eagerly compiled. |
| void ForceEagerCompilation() { |
| DCHECK_EQ(this, GetClosureScope()); |
| DeclarationScope* s; |
| for (s = this; !s->is_script_scope(); |
| s = s->outer_scope()->GetClosureScope()) { |
| s->force_eager_compilation_ = true; |
| } |
| s->force_eager_compilation_ = true; |
| } |
| |
| #ifdef DEBUG |
| void PrintParameters(); |
| #endif |
| |
| void AllocateLocals(); |
| void AllocateParameterLocals(); |
| void AllocateReceiver(); |
| |
| void ResetAfterPreparsing(AstValueFactory* ast_value_factory, bool aborted); |
| |
| bool is_skipped_function() const { return is_skipped_function_; } |
| void set_is_skipped_function(bool is_skipped_function) { |
| is_skipped_function_ = is_skipped_function; |
| } |
| |
| // Save data describing the context allocation of the variables in this scope |
| // and its subscopes (except scopes at the laziness boundary). The data is |
| // saved in produced_preparsed_scope_data_. |
| void SavePreParsedScopeDataForDeclarationScope(); |
| |
| void set_produced_preparsed_scope_data( |
| ProducedPreParsedScopeData* produced_preparsed_scope_data) { |
| produced_preparsed_scope_data_ = produced_preparsed_scope_data; |
| } |
| |
| ProducedPreParsedScopeData* produced_preparsed_scope_data() const { |
| return produced_preparsed_scope_data_; |
| } |
| |
| private: |
| void AllocateParameter(Variable* var, int index); |
| |
| // Resolve and fill in the allocation information for all variables |
| // in this scopes. Must be called *after* all scopes have been |
| // processed (parsed) to ensure that unresolved variables can be |
| // resolved properly. |
| // |
| // In the case of code compiled and run using 'eval', the context |
| // parameter is the context in which eval was called. In all other |
| // cases the context parameter is an empty handle. |
| void AllocateVariables(ParseInfo* info); |
| |
| void SetDefaults(); |
| |
| // If the scope is a function scope, this is the function kind. |
| const FunctionKind function_kind_; |
| |
| bool has_simple_parameters_ : 1; |
| // This scope contains an "use asm" annotation. |
| bool asm_module_ : 1; |
| bool force_eager_compilation_ : 1; |
| // This function scope has a rest parameter. |
| bool has_rest_ : 1; |
| // This scope has a parameter called "arguments". |
| bool has_arguments_parameter_ : 1; |
| // This scope uses "super" property ('super.foo'). |
| bool scope_uses_super_property_ : 1; |
| bool should_eager_compile_ : 1; |
| // Set to true after we have finished lazy parsing the scope. |
| bool was_lazily_parsed_ : 1; |
| #if DEBUG |
| bool is_being_lazily_parsed_ : 1; |
| #endif |
| bool is_skipped_function_ : 1; |
| |
| // Parameter list in source order. |
| ZoneList<Variable*> params_; |
| // Map of function names to lists of functions defined in sloppy blocks |
| SloppyBlockFunctionMap* sloppy_block_function_map_; |
| // Convenience variable. |
| Variable* receiver_; |
| // Function variable, if any; function scopes only. |
| Variable* function_; |
| // new.target variable, function scopes only. |
| Variable* new_target_; |
| // Convenience variable; function scopes only. |
| Variable* arguments_; |
| |
| // For producing the scope allocation data during preparsing. |
| ProducedPreParsedScopeData* produced_preparsed_scope_data_; |
| |
| struct RareData : public ZoneObject { |
| // Convenience variable; Subclass constructor only |
| Variable* this_function = nullptr; |
| |
| // Generator object, if any; generator function scopes and module scopes |
| // only. |
| Variable* generator_object = nullptr; |
| // Promise, if any; async function scopes only. |
| Variable* promise = nullptr; |
| }; |
| |
| enum class RareVariable { |
| kThisFunction = offsetof(RareData, this_function), |
| kGeneratorObject = offsetof(RareData, generator_object), |
| kPromise = offsetof(RareData, promise) |
| }; |
| |
| V8_INLINE RareData* EnsureRareData() { |
| if (rare_data_ == nullptr) { |
| rare_data_ = new (zone_) RareData; |
| } |
| return rare_data_; |
| } |
| |
| V8_INLINE Variable* GetRareVariable(RareVariable id) const { |
| if (rare_data_ == nullptr) return nullptr; |
| return *reinterpret_cast<Variable**>( |
| reinterpret_cast<uint8_t*>(rare_data_) + static_cast<ptrdiff_t>(id)); |
| } |
| |
| // Set `var` to null if it's non-null and Predicate (Variable*) -> bool |
| // returns true. |
| template <typename Predicate> |
| V8_INLINE void NullifyRareVariableIf(RareVariable id, Predicate predicate) { |
| if (V8_LIKELY(rare_data_ == nullptr)) return; |
| Variable** var = reinterpret_cast<Variable**>( |
| reinterpret_cast<uint8_t*>(rare_data_) + static_cast<ptrdiff_t>(id)); |
| if (*var && predicate(*var)) *var = nullptr; |
| } |
| |
| RareData* rare_data_ = nullptr; |
| }; |
| |
| class ModuleScope final : public DeclarationScope { |
| public: |
| ModuleScope(DeclarationScope* script_scope, |
| AstValueFactory* ast_value_factory); |
| |
| // Deserialization. |
| // The generated ModuleDescriptor does not preserve all information. In |
| // particular, its module_requests map will be empty because we no longer need |
| // the map after parsing. |
| ModuleScope(Handle<ScopeInfo> scope_info, AstValueFactory* ast_value_factory); |
| |
| ModuleDescriptor* module() const { |
| DCHECK_NOT_NULL(module_descriptor_); |
| return module_descriptor_; |
| } |
| |
| // Set MODULE as VariableLocation for all variables that will live in a |
| // module's export table. |
| void AllocateModuleVariables(); |
| |
| private: |
| ModuleDescriptor* module_descriptor_; |
| }; |
| |
| } // namespace internal |
| } // namespace v8 |
| |
| #endif // V8_AST_SCOPES_H_ |