474 lines
14 KiB
C++
474 lines
14 KiB
C++
// Copyright (c) 2013 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "tools/gn/parse_tree.h"
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#include <string>
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#include "base/stl_util.h"
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#include "base/strings/string_number_conversions.h"
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#include "tools/gn/functions.h"
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#include "tools/gn/operators.h"
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#include "tools/gn/scope.h"
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#include "tools/gn/string_utils.h"
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namespace {
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std::string IndentFor(int value) {
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std::string ret;
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for (int i = 0; i < value; i++)
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ret.append(" ");
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return ret;
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}
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} // namespace
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ParseNode::ParseNode() {
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}
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ParseNode::~ParseNode() {
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}
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const AccessorNode* ParseNode::AsAccessor() const { return NULL; }
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const BinaryOpNode* ParseNode::AsBinaryOp() const { return NULL; }
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const BlockNode* ParseNode::AsBlock() const { return NULL; }
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const ConditionNode* ParseNode::AsConditionNode() const { return NULL; }
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const FunctionCallNode* ParseNode::AsFunctionCall() const { return NULL; }
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const IdentifierNode* ParseNode::AsIdentifier() const { return NULL; }
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const ListNode* ParseNode::AsList() const { return NULL; }
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const LiteralNode* ParseNode::AsLiteral() const { return NULL; }
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const UnaryOpNode* ParseNode::AsUnaryOp() const { return NULL; }
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// AccessorNode ---------------------------------------------------------------
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AccessorNode::AccessorNode() {
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}
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AccessorNode::~AccessorNode() {
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}
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const AccessorNode* AccessorNode::AsAccessor() const {
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return this;
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}
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Value AccessorNode::Execute(Scope* scope, Err* err) const {
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Value index_value = index_->Execute(scope, err);
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if (err->has_error())
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return Value();
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if (!index_value.VerifyTypeIs(Value::INTEGER, err))
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return Value();
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const Value* base_value = scope->GetValue(base_.value(), true);
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if (!base_value) {
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*err = MakeErrorDescribing("Undefined identifier.");
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return Value();
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}
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if (!base_value->VerifyTypeIs(Value::LIST, err))
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return Value();
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int64 index_int = index_value.int_value();
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if (index_int < 0) {
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*err = Err(index_->GetRange(), "Negative array subscript.",
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"You gave me " + base::Int64ToString(index_int) + ".");
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return Value();
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}
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size_t index_sizet = static_cast<size_t>(index_int);
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if (index_sizet >= base_value->list_value().size()) {
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*err = Err(index_->GetRange(), "Array subscript out of range.",
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"You gave me " + base::Int64ToString(index_int) +
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" but I was expecting something from 0 to " +
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base::Int64ToString(
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static_cast<int64>(base_value->list_value().size()) - 1) +
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", inclusive.");
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return Value();
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}
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// Doing this assumes that there's no way in the language to do anything
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// between the time the reference is created and the time that the reference
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// is used. If there is, this will crash! Currently, this is just used for
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// array accesses where this "shouldn't" happen.
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return base_value->list_value()[index_sizet];
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}
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LocationRange AccessorNode::GetRange() const {
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return LocationRange(base_.location(), index_->GetRange().end());
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}
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Err AccessorNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(GetRange(), msg, help);
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}
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void AccessorNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "ACCESSOR\n";
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out << IndentFor(indent + 1) << base_.value() << "\n";
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index_->Print(out, indent + 1);
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}
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// BinaryOpNode ---------------------------------------------------------------
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BinaryOpNode::BinaryOpNode() {
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}
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BinaryOpNode::~BinaryOpNode() {
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}
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const BinaryOpNode* BinaryOpNode::AsBinaryOp() const {
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return this;
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}
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Value BinaryOpNode::Execute(Scope* scope, Err* err) const {
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return ExecuteBinaryOperator(scope, this, left_.get(), right_.get(), err);
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}
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LocationRange BinaryOpNode::GetRange() const {
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return left_->GetRange().Union(right_->GetRange());
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}
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Err BinaryOpNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(op_, msg, help);
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}
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void BinaryOpNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "BINARY(" << op_.value() << ")\n";
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left_->Print(out, indent + 1);
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right_->Print(out, indent + 1);
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}
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// BlockNode ------------------------------------------------------------------
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BlockNode::BlockNode(bool has_scope)
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: has_scope_(has_scope),
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begin_token_(NULL),
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end_token_(NULL) {
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}
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BlockNode::~BlockNode() {
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STLDeleteContainerPointers(statements_.begin(), statements_.end());
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}
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const BlockNode* BlockNode::AsBlock() const {
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return this;
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}
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Value BlockNode::Execute(Scope* containing_scope, Err* err) const {
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if (has_scope_) {
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Scope our_scope(containing_scope);
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Value ret = ExecuteBlockInScope(&our_scope, err);
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if (err->has_error())
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return Value();
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// Check for unused vars in the scope.
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//our_scope.CheckForUnusedVars(err);
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return ret;
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}
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return ExecuteBlockInScope(containing_scope, err);
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}
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LocationRange BlockNode::GetRange() const {
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if (begin_token_ && end_token_) {
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return begin_token_->range().Union(end_token_->range());
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}
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return LocationRange(); // TODO(brettw) indicate the entire file somehow.
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}
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Err BlockNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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if (begin_token_)
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return Err(*begin_token_, msg, help);
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// TODO(brettw) this should have the beginning of the file in it or something.
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return Err(Location(NULL, 1, 1), msg, help);
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}
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void BlockNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "BLOCK\n";
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for (size_t i = 0; i < statements_.size(); i++)
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statements_[i]->Print(out, indent + 1);
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}
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Value BlockNode::ExecuteBlockInScope(Scope* our_scope, Err* err) const {
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for (size_t i = 0; i < statements_.size() && !err->has_error(); i++) {
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// Check for trying to execute things with no side effects in a block.
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const ParseNode* cur = statements_[i];
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if (cur->AsList() || cur->AsLiteral() || cur->AsUnaryOp() ||
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cur->AsIdentifier()) {
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*err = cur->MakeErrorDescribing(
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"This statment has no effect.",
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"Either delete it or do something with the result.");
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return Value();
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}
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cur->Execute(our_scope, err);
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}
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return Value();
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}
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// ConditionNode --------------------------------------------------------------
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ConditionNode::ConditionNode() {
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}
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ConditionNode::~ConditionNode() {
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}
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const ConditionNode* ConditionNode::AsConditionNode() const {
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return this;
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}
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Value ConditionNode::Execute(Scope* scope, Err* err) const {
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Value condition_result = condition_->Execute(scope, err);
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if (err->has_error())
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return Value();
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if (condition_result.type() == Value::NONE) {
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*err = condition_->MakeErrorDescribing(
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"This does not evaluate to a value.",
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"Please give me something to work with for the if statement.");
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err->AppendRange(if_token_.range());
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return Value();
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}
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if (condition_result.InterpretAsInt()) {
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if_true_->ExecuteBlockInScope(scope, err);
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} else if (if_false_) {
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// The else block is optional. It's either another condition (for an
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// "else if" and we can just Execute it and the condition will handle
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// the scoping) or it's a block indicating an "else" in which ase we
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// need to be sure it inherits our scope.
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const BlockNode* if_false_block = if_false_->AsBlock();
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if (if_false_block)
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if_false_block->ExecuteBlockInScope(scope, err);
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else
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if_false_->Execute(scope, err);
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}
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return Value();
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}
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LocationRange ConditionNode::GetRange() const {
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if (if_false_)
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return if_token_.range().Union(if_false_->GetRange());
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return if_token_.range().Union(if_true_->GetRange());
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}
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Err ConditionNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(if_token_, msg, help);
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}
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void ConditionNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "CONDITION\n";
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condition_->Print(out, indent + 1);
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if_true_->Print(out, indent + 1);
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if (if_false_)
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if_false_->Print(out, indent + 1);
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}
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// FunctionCallNode -----------------------------------------------------------
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FunctionCallNode::FunctionCallNode() {
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}
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FunctionCallNode::~FunctionCallNode() {
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}
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const FunctionCallNode* FunctionCallNode::AsFunctionCall() const {
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return this;
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}
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Value FunctionCallNode::Execute(Scope* scope, Err* err) const {
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Value args = args_->Execute(scope, err);
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if (err->has_error())
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return Value();
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return functions::RunFunction(scope, this, args.list_value(), block_.get(),
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err);
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}
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LocationRange FunctionCallNode::GetRange() const {
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if (block_)
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return function_.range().Union(block_->GetRange());
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return function_.range().Union(args_->GetRange());
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}
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Err FunctionCallNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(function_, msg, help);
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}
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void FunctionCallNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "FUNCTION(" << function_.value() << ")\n";
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args_->Print(out, indent + 1);
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if (block_)
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block_->Print(out, indent + 1);
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}
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// IdentifierNode --------------------------------------------------------------
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IdentifierNode::IdentifierNode() {
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}
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IdentifierNode::IdentifierNode(const Token& token) : value_(token) {
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}
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IdentifierNode::~IdentifierNode() {
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}
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const IdentifierNode* IdentifierNode::AsIdentifier() const {
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return this;
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}
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Value IdentifierNode::Execute(Scope* scope, Err* err) const {
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const Value* result = scope->GetValue(value_.value(), true);
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if (!result) {
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*err = MakeErrorDescribing("Undefined identifier");
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return Value();
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}
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return *result;
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}
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LocationRange IdentifierNode::GetRange() const {
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return value_.range();
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}
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Err IdentifierNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(value_, msg, help);
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}
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void IdentifierNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "IDENTIFIER(" << value_.value() << ")\n";
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}
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// ListNode -------------------------------------------------------------------
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ListNode::ListNode() {
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}
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ListNode::~ListNode() {
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STLDeleteContainerPointers(contents_.begin(), contents_.end());
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}
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const ListNode* ListNode::AsList() const {
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return this;
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}
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Value ListNode::Execute(Scope* scope, Err* err) const {
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Value result_value(this, Value::LIST);
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std::vector<Value>& results = result_value.list_value();
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results.resize(contents_.size());
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for (size_t i = 0; i < contents_.size(); i++) {
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const ParseNode* cur = contents_[i];
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results[i] = cur->Execute(scope, err);
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if (err->has_error())
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return Value();
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if (results[i].type() == Value::NONE) {
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*err = cur->MakeErrorDescribing(
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"This does not evaluate to a value.",
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"I can't do something with nothing.");
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return Value();
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}
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}
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return result_value;
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}
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LocationRange ListNode::GetRange() const {
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return LocationRange(begin_token_.location(), end_token_.location());
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}
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Err ListNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(begin_token_, msg, help);
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}
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void ListNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "LIST\n";
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for (size_t i = 0; i < contents_.size(); i++)
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contents_[i]->Print(out, indent + 1);
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}
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// LiteralNode -----------------------------------------------------------------
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LiteralNode::LiteralNode() {
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}
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LiteralNode::LiteralNode(const Token& token) : value_(token) {
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}
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LiteralNode::~LiteralNode() {
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}
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const LiteralNode* LiteralNode::AsLiteral() const {
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return this;
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}
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Value LiteralNode::Execute(Scope* scope, Err* err) const {
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switch (value_.type()) {
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case Token::INTEGER: {
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int64 result_int;
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if (!base::StringToInt64(value_.value(), &result_int)) {
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*err = MakeErrorDescribing("This does not look like an integer");
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return Value();
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}
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return Value(this, result_int);
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}
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case Token::STRING: {
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// TODO(brettw) Unescaping probably needs to be moved & improved.
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// The input value includes the quotes around the string, strip those
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// off and unescape.
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Value v(this, Value::STRING);
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ExpandStringLiteral(scope, value_, &v, err);
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return v;
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}
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default:
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NOTREACHED();
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return Value();
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}
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}
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LocationRange LiteralNode::GetRange() const {
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return value_.range();
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}
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Err LiteralNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(value_, msg, help);
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}
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void LiteralNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "LITERAL(" << value_.value() << ")\n";
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}
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// UnaryOpNode ----------------------------------------------------------------
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UnaryOpNode::UnaryOpNode() {
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}
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UnaryOpNode::~UnaryOpNode() {
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}
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const UnaryOpNode* UnaryOpNode::AsUnaryOp() const {
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return this;
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}
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Value UnaryOpNode::Execute(Scope* scope, Err* err) const {
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Value operand_value = operand_->Execute(scope, err);
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if (err->has_error())
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return Value();
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return ExecuteUnaryOperator(scope, this, operand_value, err);
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}
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LocationRange UnaryOpNode::GetRange() const {
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return op_.range().Union(operand_->GetRange());
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}
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Err UnaryOpNode::MakeErrorDescribing(const std::string& msg,
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const std::string& help) const {
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return Err(op_, msg, help);
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}
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void UnaryOpNode::Print(std::ostream& out, int indent) const {
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out << IndentFor(indent) << "UNARY(" << op_.value() << ")\n";
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operand_->Print(out, indent + 1);
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}
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