// Copyright 2011 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_VARIABLES_H_ #define V8_AST_VARIABLES_H_ #include "src/ast/ast-value-factory.h" #include "src/zone.h" namespace v8 { namespace internal { // The AST refers to variables via VariableProxies - placeholders for the actual // variables. Variables themselves are never directly referred to from the AST, // they are maintained by scopes, and referred to from VariableProxies and Slots // after binding and variable allocation. class ClassVariable; class Variable: public ZoneObject { public: enum Kind { NORMAL, FUNCTION, CLASS, THIS, ARGUMENTS }; Variable(Scope* scope, const AstRawString* name, VariableMode mode, Kind kind, InitializationFlag initialization_flag, MaybeAssignedFlag maybe_assigned_flag = kNotAssigned); virtual ~Variable() {} // Printing support static const char* Mode2String(VariableMode mode); // The source code for an eval() call may refer to a variable that is // in an outer scope about which we don't know anything (it may not // be the script scope). scope() is NULL in that case. Currently the // scope is only used to follow the context chain length. Scope* scope() const { return scope_; } // This is for adjusting the scope of temporaries used when desugaring // parameter initializers. void set_scope(Scope* scope) { scope_ = scope; } Handle name() const { return name_->string(); } const AstRawString* raw_name() const { return name_; } VariableMode mode() const { return mode_; } bool has_forced_context_allocation() const { return force_context_allocation_; } void ForceContextAllocation() { force_context_allocation_ = true; } bool is_used() { return is_used_; } void set_is_used() { is_used_ = true; } MaybeAssignedFlag maybe_assigned() const { return maybe_assigned_; } void set_maybe_assigned() { maybe_assigned_ = kMaybeAssigned; } int initializer_position() { return initializer_position_; } void set_initializer_position(int pos) { initializer_position_ = pos; } bool IsVariable(Handle n) const { return !is_this() && name().is_identical_to(n); } bool IsUnallocated() const { return location_ == VariableLocation::UNALLOCATED; } bool IsParameter() const { return location_ == VariableLocation::PARAMETER; } bool IsStackLocal() const { return location_ == VariableLocation::LOCAL; } bool IsStackAllocated() const { return IsParameter() || IsStackLocal(); } bool IsContextSlot() const { return location_ == VariableLocation::CONTEXT; } bool IsGlobalSlot() const { return location_ == VariableLocation::GLOBAL; } bool IsUnallocatedOrGlobalSlot() const { return IsUnallocated() || IsGlobalSlot(); } bool IsLookupSlot() const { return location_ == VariableLocation::LOOKUP; } bool IsGlobalObjectProperty() const; bool IsStaticGlobalObjectProperty() const; bool is_dynamic() const { return IsDynamicVariableMode(mode_); } bool is_const_mode() const { return IsImmutableVariableMode(mode_); } bool binding_needs_init() const { return initialization_flag_ == kNeedsInitialization; } bool is_function() const { return kind_ == FUNCTION; } bool is_class() const { return kind_ == CLASS; } bool is_this() const { return kind_ == THIS; } bool is_arguments() const { return kind_ == ARGUMENTS; } // For script scopes, the "this" binding is provided by a ScriptContext added // to the global's ScriptContextTable. This binding might not statically // resolve to a Variable::THIS binding, instead being DYNAMIC_LOCAL. However // any variable named "this" does indeed refer to a Variable::THIS binding; // the grammar ensures this to be the case. So wherever a "this" binding // might be provided by the global, use HasThisName instead of is_this(). bool HasThisName(Isolate* isolate) const { return is_this() || *name() == *isolate->factory()->this_string(); } ClassVariable* AsClassVariable() { DCHECK(is_class()); return reinterpret_cast(this); } // True if the variable is named eval and not known to be shadowed. bool is_possibly_eval(Isolate* isolate) const { return IsVariable(isolate->factory()->eval_string()); } Variable* local_if_not_shadowed() const { DCHECK(mode_ == DYNAMIC_LOCAL && local_if_not_shadowed_ != NULL); return local_if_not_shadowed_; } void set_local_if_not_shadowed(Variable* local) { local_if_not_shadowed_ = local; } VariableLocation location() const { return location_; } int index() const { return index_; } InitializationFlag initialization_flag() const { return initialization_flag_; } void AllocateTo(VariableLocation location, int index) { location_ = location; index_ = index; } void SetFromEval() { is_from_eval_ = true; } static int CompareIndex(Variable* const* v, Variable* const* w); void RecordStrongModeReference(int start_position, int end_position) { // Record the earliest reference to the variable. Used in error messages for // strong mode references to undeclared variables. if (has_strong_mode_reference_ && strong_mode_reference_start_position_ < start_position) return; has_strong_mode_reference_ = true; strong_mode_reference_start_position_ = start_position; strong_mode_reference_end_position_ = end_position; } bool has_strong_mode_reference() const { return has_strong_mode_reference_; } int strong_mode_reference_start_position() const { return strong_mode_reference_start_position_; } int strong_mode_reference_end_position() const { return strong_mode_reference_end_position_; } PropertyAttributes DeclarationPropertyAttributes() const { int property_attributes = NONE; if (IsImmutableVariableMode(mode_)) { property_attributes |= READ_ONLY; } if (is_from_eval_) { property_attributes |= EVAL_DECLARED; } return static_cast(property_attributes); } private: Scope* scope_; const AstRawString* name_; VariableMode mode_; Kind kind_; VariableLocation location_; int index_; int initializer_position_; // Tracks whether the variable is bound to a VariableProxy which is in strong // mode, and if yes, the source location of the reference. bool has_strong_mode_reference_; int strong_mode_reference_start_position_; int strong_mode_reference_end_position_; // If this field is set, this variable references the stored locally bound // variable, but it might be shadowed by variable bindings introduced by // sloppy 'eval' calls between the reference scope (inclusive) and the // binding scope (exclusive). Variable* local_if_not_shadowed_; // True if this variable is introduced by a sloppy eval bool is_from_eval_; // Usage info. bool force_context_allocation_; // set by variable resolver bool is_used_; InitializationFlag initialization_flag_; MaybeAssignedFlag maybe_assigned_; }; class ClassVariable : public Variable { public: ClassVariable(Scope* scope, const AstRawString* name, VariableMode mode, InitializationFlag initialization_flag, MaybeAssignedFlag maybe_assigned_flag = kNotAssigned, int declaration_group_start = -1) : Variable(scope, name, mode, Variable::CLASS, initialization_flag, maybe_assigned_flag), declaration_group_start_(declaration_group_start) {} int declaration_group_start() const { return declaration_group_start_; } void set_declaration_group_start(int declaration_group_start) { declaration_group_start_ = declaration_group_start; } private: // For classes we keep track of consecutive groups of delcarations. They are // needed for strong mode scoping checks. TODO(marja, rossberg): Implement // checks for functions too. int declaration_group_start_; }; } // namespace internal } // namespace v8 #endif // V8_AST_VARIABLES_H_