mirror of
https://github.com/dart-lang/sdk
synced 2024-09-19 20:51:50 +00:00
b1c09ecd8f
Currently we have things called XPtr which are not what you get from ptr().
Old world:
handle->raw() returns RawObject* (tagged)
raw_obj->ptr() returns RawObject* (untagged)
After 6fe15f6df9
:
handle->raw() returns ObjectPtr
obj_ptr->ptr() returns ObjectLayout*
New world:
handle->ptr() returns ObjectPtr
obj_ptr->untag() returns UntaggedObject*
TEST=ci
Change-Id: I6c7f34014cf20737607caaf84979838300d12df2
Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/149367
Commit-Queue: Ryan Macnak <rmacnak@google.com>
Reviewed-by: Martin Kustermann <kustermann@google.com>
Reviewed-by: Siva Annamalai <asiva@google.com>
Reviewed-by: Vyacheslav Egorov <vegorov@google.com>
550 lines
19 KiB
C++
550 lines
19 KiB
C++
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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#ifndef RUNTIME_VM_SCOPES_H_
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#define RUNTIME_VM_SCOPES_H_
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#include <limits>
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#include "platform/assert.h"
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#include "platform/globals.h"
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#include "vm/allocation.h"
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#include "vm/growable_array.h"
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#include "vm/object.h"
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#include "vm/raw_object.h"
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#include "vm/symbols.h"
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#include "vm/token.h"
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namespace dart {
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class CompileType;
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class LocalScope;
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class Slot;
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// Indices of [LocalVariable]s are abstract and have little todo with the
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// actual frame layout!
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//
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// There are generally 4 different kinds of [LocalVariable]s:
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//
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// a) [LocalVariable]s refering to a parameter: The indices for those
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// variables are assigned by the flow graph builder. Parameter n gets
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// assigned the index (function.num_parameters - n - 1). I.e. the last
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// parameter has index 1.
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//
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// b) [LocalVariable]s referring to actual variables in the body of a
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// function (either from Dart code or specially injected ones. The
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// indices of those variables are assigned by the scope builder
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// from 0, -1, ... -(M-1) for M local variables.
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//
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// -> These variables participate in full SSA renaming and can therefore
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// be used with [StoreLocalInstr]s (in addition to [LoadLocal]s).
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//
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// c) [LocalVariable]s referring to values on the expression stack. Those are
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// assigned by the flow graph builder. The indices of those variables are
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// assigned by the flow graph builder (it simulates the expression stack
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// height), they go from -NumVariables - ExpressionHeight.
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//
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// -> These variables participate only partially in SSA renaming and can
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// therefore only be used with [LoadLocalInstr]s and with
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// [StoreLocalInstr]s **where no phis are necessary**.
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//
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// b) [LocalVariable]s referring to captured variables. Those are never
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// loaded/stored directly. Their only purpose is to tell the flow graph
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// builder how many parent links to follow and into which context index to
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// store. The indices of those variables are assigned by the scope
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// builder and they refer to indices into context objects.
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class VariableIndex {
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public:
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static const int kInvalidIndex = std::numeric_limits<int>::min();
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explicit VariableIndex(int value = kInvalidIndex) : value_(value) {}
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bool operator==(const VariableIndex& other) { return value_ == other.value_; }
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bool IsValid() const { return value_ != kInvalidIndex; }
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int value() const { return value_; }
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private:
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int value_;
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};
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class LocalVariable : public ZoneAllocated {
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public:
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LocalVariable(TokenPosition declaration_pos,
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TokenPosition token_pos,
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const String& name,
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const AbstractType& type,
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CompileType* parameter_type = nullptr,
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const Object* parameter_value = nullptr)
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: declaration_pos_(declaration_pos),
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token_pos_(token_pos),
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name_(name),
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owner_(NULL),
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type_(type),
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parameter_type_(parameter_type),
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parameter_value_(parameter_value),
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const_value_(NULL),
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is_final_(false),
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is_captured_(false),
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is_invisible_(false),
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is_captured_parameter_(false),
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is_forced_stack_(false),
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covariance_mode_(kNotCovariant),
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is_late_(false),
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is_chained_future_(false),
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expected_context_index_(-1),
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late_init_offset_(0),
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type_check_mode_(kDoTypeCheck),
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index_() {
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ASSERT(type.IsZoneHandle() || type.IsReadOnlyHandle());
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ASSERT(type.IsFinalized());
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ASSERT(name.IsSymbol());
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}
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TokenPosition token_pos() const { return token_pos_; }
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TokenPosition declaration_token_pos() const { return declaration_pos_; }
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const String& name() const { return name_; }
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LocalScope* owner() const { return owner_; }
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void set_owner(LocalScope* owner) {
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ASSERT(owner_ == NULL);
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owner_ = owner;
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}
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const AbstractType& type() const { return type_; }
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CompileType* parameter_type() const { return parameter_type_; }
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const Object* parameter_value() const { return parameter_value_; }
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bool is_final() const { return is_final_; }
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void set_is_final() { is_final_ = true; }
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bool is_captured() const { return is_captured_; }
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void set_is_captured() { is_captured_ = true; }
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// Variables marked as forced to stack are skipped and not captured by
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// CaptureLocalVariables - which iterates scope chain between two scopes
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// and indiscriminately marks all variables as captured.
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// TODO(27590) remove the hardcoded list of names from CaptureLocalVariables
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bool is_forced_stack() const { return is_forced_stack_; }
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void set_is_forced_stack() { is_forced_stack_ = true; }
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bool is_late() const { return is_late_; }
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void set_is_late() { is_late_ = true; }
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bool is_chained_future() const { return is_chained_future_; }
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void set_is_chained_future() { is_chained_future_ = true; }
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intptr_t expected_context_index() const { return expected_context_index_; }
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void set_expected_context_index(int index) {
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expected_context_index_ = index;
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}
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intptr_t late_init_offset() const { return late_init_offset_; }
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void set_late_init_offset(intptr_t late_init_offset) {
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late_init_offset_ = late_init_offset;
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}
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bool is_explicit_covariant_parameter() const {
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return covariance_mode_ == kExplicit;
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}
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void set_is_explicit_covariant_parameter() { covariance_mode_ = kExplicit; }
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bool needs_covariant_check_in_method() const {
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return covariance_mode_ != kNotCovariant;
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}
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void set_needs_covariant_check_in_method() {
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if (covariance_mode_ == kNotCovariant) {
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covariance_mode_ = kImplicit;
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}
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}
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enum TypeCheckMode {
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kDoTypeCheck,
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kSkipTypeCheck,
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kTypeCheckedByCaller,
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};
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// Returns true if this local variable represents a parameter that needs type
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// check when we enter the function.
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bool needs_type_check() const { return (type_check_mode_ == kDoTypeCheck); }
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// Returns true if this local variable represents a parameter which type is
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// guaranteed by the caller.
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bool was_type_checked_by_caller() const {
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return type_check_mode_ == kTypeCheckedByCaller;
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}
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TypeCheckMode type_check_mode() const { return type_check_mode_; }
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void set_type_check_mode(TypeCheckMode mode) { type_check_mode_ = mode; }
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bool HasIndex() const { return index_.IsValid(); }
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VariableIndex index() const {
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ASSERT(HasIndex());
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return index_;
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}
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// Assign an index to a local.
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void set_index(VariableIndex index) {
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ASSERT(index.IsValid());
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index_ = index;
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}
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void set_invisible(bool value) { is_invisible_ = value; }
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bool is_invisible() const { return is_invisible_; }
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bool is_captured_parameter() const { return is_captured_parameter_; }
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void set_is_captured_parameter(bool value) { is_captured_parameter_ = value; }
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// By convention, internal variables start with a colon.
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bool IsInternal() const { return name_.CharAt(0) == ':'; }
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bool IsConst() const { return const_value_ != NULL; }
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void SetConstValue(const Instance& value) {
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ASSERT(value.IsZoneHandle() || value.IsReadOnlyHandle());
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const_value_ = &value;
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}
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const Instance* ConstValue() const {
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ASSERT(IsConst());
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return const_value_;
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}
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bool Equals(const LocalVariable& other) const;
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private:
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enum CovarianceMode {
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kNotCovariant,
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kImplicit,
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kExplicit,
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};
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static const int kUninitializedIndex = INT_MIN;
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const TokenPosition declaration_pos_;
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const TokenPosition token_pos_;
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const String& name_;
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LocalScope* owner_; // Local scope declaring this variable.
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const AbstractType& type_; // Declaration type of local variable.
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CompileType* const parameter_type_; // NULL or incoming parameter type.
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const Object* parameter_value_; // NULL or incoming parameter value.
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const Instance* const_value_; // NULL or compile-time const value.
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bool is_final_; // If true, this variable is readonly.
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bool is_captured_; // If true, this variable lives in the context, otherwise
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// in the stack frame.
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bool is_invisible_;
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bool is_captured_parameter_;
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bool is_forced_stack_;
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CovarianceMode covariance_mode_;
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bool is_late_;
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bool is_chained_future_;
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intptr_t expected_context_index_;
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intptr_t late_init_offset_;
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TypeCheckMode type_check_mode_;
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VariableIndex index_;
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friend class LocalScope;
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DISALLOW_COPY_AND_ASSIGN(LocalVariable);
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};
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// Accumulates local variable descriptors while building
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// LocalVarDescriptors object.
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class LocalVarDescriptorsBuilder : public ValueObject {
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public:
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struct VarDesc {
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const String* name;
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UntaggedLocalVarDescriptors::VarInfo info;
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};
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LocalVarDescriptorsBuilder() : vars_(8) {}
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// Add variable descriptor.
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void Add(const VarDesc& var_desc) { vars_.Add(var_desc); }
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// Add all variable descriptors from given [LocalVarDescriptors] object.
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void AddAll(Zone* zone, const LocalVarDescriptors& var_descs);
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// Record deopt-id -> context-level mappings, using ranges of deopt-ids with
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// the same context-level. [context_level_array] contains (deopt_id,
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// context_level) tuples.
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void AddDeoptIdToContextLevelMappings(
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ZoneGrowableArray<intptr_t>* context_level_array);
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// Finish building LocalVarDescriptor object.
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LocalVarDescriptorsPtr Done();
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private:
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GrowableArray<VarDesc> vars_;
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};
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class NameReference : public ZoneAllocated {
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public:
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NameReference(TokenPosition token_pos, const String& name)
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: token_pos_(token_pos), name_(name) {
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ASSERT(name.IsSymbol());
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}
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const String& name() const { return name_; }
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TokenPosition token_pos() const { return token_pos_; }
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void set_token_pos(TokenPosition value) { token_pos_ = value; }
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private:
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TokenPosition token_pos_;
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const String& name_;
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};
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class SourceLabel : public ZoneAllocated {
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public:
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enum Kind {
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kFor,
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kWhile,
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kDoWhile,
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kSwitch,
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kCase,
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kTry,
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kCatch,
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kForward,
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kStatement // Any statement other than the above
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};
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SourceLabel(TokenPosition token_pos, const String& name, Kind kind)
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: token_pos_(token_pos), name_(name), owner_(NULL), kind_(kind) {
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ASSERT(name.IsSymbol());
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}
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static SourceLabel* New(TokenPosition token_pos, String* name, Kind kind) {
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if (name != NULL) {
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return new SourceLabel(token_pos, *name, kind);
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} else {
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return new SourceLabel(token_pos, Symbols::DefaultLabel(), kind);
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}
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}
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TokenPosition token_pos() const { return token_pos_; }
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const String& name() const { return name_; }
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LocalScope* owner() const { return owner_; }
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void set_owner(LocalScope* owner) { owner_ = owner; }
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Kind kind() const { return kind_; }
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// Returns the function level of the scope in which the label is defined.
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int FunctionLevel() const;
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bool IsUnresolved() { return kind_ == kForward; }
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void ResolveForwardReference() { kind_ = kCase; }
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private:
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const TokenPosition token_pos_;
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const String& name_;
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LocalScope* owner_; // Local scope declaring this label.
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Kind kind_;
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DISALLOW_COPY_AND_ASSIGN(SourceLabel);
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};
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class LocalScope : public ZoneAllocated {
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public:
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LocalScope(LocalScope* parent, int function_level, int loop_level);
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LocalScope* parent() const { return parent_; }
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LocalScope* child() const { return child_; }
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LocalScope* sibling() const { return sibling_; }
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int function_level() const { return function_level_; }
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int loop_level() const { return loop_level_; }
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// Check if this scope is nested within the passed in scope.
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bool IsNestedWithin(LocalScope* scope) const;
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// The context level is only set in a scope that is either the owner scope of
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// a captured variable or that is the owner scope of a context.
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bool HasContextLevel() const {
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return context_level_ != kUninitializedContextLevel;
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}
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int context_level() const {
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ASSERT(HasContextLevel());
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return context_level_;
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}
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void set_context_level(int context_level) {
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ASSERT(!HasContextLevel());
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ASSERT(context_level != kUninitializedContextLevel);
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context_level_ = context_level;
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}
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TokenPosition begin_token_pos() const { return begin_token_pos_; }
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void set_begin_token_pos(TokenPosition value) { begin_token_pos_ = value; }
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TokenPosition end_token_pos() const { return end_token_pos_; }
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void set_end_token_pos(TokenPosition value) { end_token_pos_ = value; }
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// Return the list of variables allocated in the context and belonging to this
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// scope and to its children at the same loop level.
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const GrowableArray<LocalVariable*>& context_variables() const {
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return context_variables_;
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}
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const ZoneGrowableArray<const Slot*>& context_slots() const {
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return *context_slots_;
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}
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// The number of variables allocated in the context and belonging to this
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// scope and to its children at the same loop level.
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int num_context_variables() const { return context_variables().length(); }
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// Add a variable to the scope. Returns false if a variable with the
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// same name is already present.
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bool AddVariable(LocalVariable* variable);
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// Add a variable to the scope as a context allocated variable and assigns
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// it an index within the context. Does not check if the scope already
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// contains this variable or a variable with the same name.
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void AddContextVariable(LocalVariable* var);
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// Insert a formal parameter variable to the scope at the given position,
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// possibly in front of aliases already added with AddVariable.
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// Returns false if a variable with the same name is already present.
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bool InsertParameterAt(intptr_t pos, LocalVariable* parameter);
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// Add a label to the scope. Returns false if a label with the same name
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// is already present.
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bool AddLabel(SourceLabel* label);
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// Move an unresolved label of a switch case label to an outer switch.
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void MoveLabel(SourceLabel* label);
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// Lookup a variable in this scope only.
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LocalVariable* LocalLookupVariable(const String& name) const;
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// Lookup a label in this scope only.
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SourceLabel* LocalLookupLabel(const String& name) const;
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// Lookup a variable in this scope and its parents. If the variable
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// is found in a parent scope and 'test_only' is not true, we insert
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// aliases of the variable in the current and intermediate scopes up to
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// the declaration scope in order to detect "used before declared" errors.
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// We mark a variable as 'captured' when applicable.
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LocalVariable* LookupVariable(const String& name, bool test_only);
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// Lookup a label in this scope and its parents.
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SourceLabel* LookupLabel(const String& name);
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// Lookup the "innermost" label that labels a for, while, do, or switch
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// statement.
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SourceLabel* LookupInnermostLabel(Token::Kind jump_kind);
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// Lookup scope of outer switch statement at same function level.
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// Returns NULL if this scope is not embedded in a switch.
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LocalScope* LookupSwitchScope();
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// Mark this variable as captured by this scope.
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void CaptureVariable(LocalVariable* variable);
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// Look for unresolved forward references to labels in this scope.
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// If there are any, propagate the forward reference to the next
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// outer scope of a switch statement. If there is no outer switch
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// statement, return the first unresolved label found.
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SourceLabel* CheckUnresolvedLabels();
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// Accessing the variables in the scope.
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intptr_t num_variables() const { return variables_.length(); }
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LocalVariable* VariableAt(intptr_t index) const {
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ASSERT((index >= 0) && (index < variables_.length()));
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return variables_[index];
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}
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// Count the captured variables belonging to outer scopes and referenced in
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// this local scope.
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int NumCapturedVariables() const;
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// Add a reference to the given name into this scope and the enclosing
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// scopes that do not have a local variable declaration for this name
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// already.
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void AddReferencedName(TokenPosition token_pos, const String& name);
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TokenPosition PreviousReferencePos(const String& name) const;
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// Allocate both captured and non-captured variables declared in this scope
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// and in its children scopes of the same function level. Allocating means
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// assigning a frame slot index or a context slot index.
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// Parameters to be allocated in the frame must all appear in the top scope
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// and not in its children (we do not yet handle register parameters).
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// Locals must be listed after parameters in top scope and in its children.
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// Two locals in different sibling scopes may share the same frame slot.
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//
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// Return the index of the next available frame slot.
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VariableIndex AllocateVariables(VariableIndex first_parameter_index,
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int num_parameters,
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VariableIndex first_local_index,
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LocalScope* context_owner,
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bool* found_captured_variables);
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// Creates variable info for the scope and all its nested scopes.
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// Must be called after AllocateVariables() has been called.
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LocalVarDescriptorsPtr GetVarDescriptors(
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const Function& func,
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ZoneGrowableArray<intptr_t>* context_level_array);
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// Create a ContextScope object describing all captured variables referenced
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// from this scope and belonging to outer scopes.
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ContextScopePtr PreserveOuterScope(int current_context_level) const;
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// Mark all local variables that are accessible from this scope up to
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// top_scope (included) as captured unless they are marked as forced to stack.
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void CaptureLocalVariables(LocalScope* top_scope);
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// Creates a LocalScope representing the outer scope of a local function to be
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// compiled. This outer scope contains the variables captured by the function
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// as specified by the given ContextScope, which was created during the
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// compilation of the enclosing function.
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static LocalScope* RestoreOuterScope(const ContextScope& context_scope);
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// Create a ContextScope object which will capture "this" for an implicit
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// closure object.
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static ContextScopePtr CreateImplicitClosureScope(const Function& func);
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private:
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// Allocate the variable in the current context, possibly updating the current
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// context owner scope, if the variable is the first one to be allocated at
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// this loop level.
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// The variable may belong to this scope or to any of its children, but at the
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// same loop level.
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void AllocateContextVariable(LocalVariable* variable,
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LocalScope** context_owner);
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void CollectLocalVariables(LocalVarDescriptorsBuilder* vars,
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int16_t* scope_id);
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NameReference* FindReference(const String& name) const;
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static const int kUninitializedContextLevel = INT_MIN;
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LocalScope* parent_;
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LocalScope* child_;
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LocalScope* sibling_;
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int function_level_; // Reflects the nesting level of local functions.
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int loop_level_; // Reflects the loop nesting level.
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int context_level_; // Reflects the level of the runtime context.
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TokenPosition begin_token_pos_; // Token index of beginning of scope.
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TokenPosition end_token_pos_; // Token index of end of scope.
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GrowableArray<LocalVariable*> variables_;
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GrowableArray<SourceLabel*> labels_;
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// List of variables allocated into the context which is owned by this scope,
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// and their corresponding Slots.
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GrowableArray<LocalVariable*> context_variables_;
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ZoneGrowableArray<const Slot*>* context_slots_;
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// List of names referenced in this scope and its children that
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// are not resolved to local variables.
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GrowableArray<NameReference*> referenced_;
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DISALLOW_COPY_AND_ASSIGN(LocalScope);
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};
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} // namespace dart
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#endif // RUNTIME_VM_SCOPES_H_
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