src/gn/parse_tree.h - third_party/gn - Git at Google

 // Copyright 2014 The Chromium 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 TOOLS_GN_PARSE_TREE_H_
 #define TOOLS_GN_PARSE_TREE_H_

 #include <stddef.h>

 #include <memory>
 #include <utility>
 #include <vector>

 #include "base/macros.h"
 #include "base/values.h"
 #include "gn/err.h"
 #include "gn/token.h"
 #include "gn/value.h"

 class AccessorNode;
 class BinaryOpNode;
 class BlockCommentNode;
 class BlockNode;
 class ConditionNode;
 class EndNode;
 class FunctionCallNode;
 class IdentifierNode;
 class ListNode;
 class LiteralNode;
 class Scope;
 class UnaryOpNode;

 // Dictionary keys used for JSON-formatted tree dump.
 extern const char kJsonNodeChild[];
 extern const char kJsonNodeType[];
 extern const char kJsonNodeValue[];
 extern const char kJsonBeforeComment[];
 extern const char kJsonSuffixComment[];
 extern const char kJsonAfterComment[];

 class Comments {
  public:
   Comments();
   virtual ~Comments();

   const std::vector<Token>& before() const { return before_; }
   void append_before(Token c) { before_.push_back(c); }
   void clear_before() { before_.clear(); }

   const std::vector<Token>& suffix() const { return suffix_; }
   void append_suffix(Token c) { suffix_.push_back(c); }
   // Reverse the order of the suffix comments. When walking the tree in
   // post-order we append suffix comments in reverse order, so this fixes them
   // up.
   void ReverseSuffix();

   const std::vector<Token>& after() const { return after_; }
   void append_after(Token c) { after_.push_back(c); }

  private:
   // Whole line comments before the expression.
   std::vector<Token> before_;

   // End-of-line comments after this expression.
   std::vector<Token> suffix_;

   // For top-level expressions only, after_ lists whole-line comments
   // following the expression.
   std::vector<Token> after_;

   DISALLOW_COPY_AND_ASSIGN(Comments);
 };

 // ParseNode -------------------------------------------------------------------

 // A node in the AST.
 class ParseNode {
  public:
   ParseNode();
   virtual ~ParseNode();

   virtual const AccessorNode* AsAccessor() const;
   virtual const BinaryOpNode* AsBinaryOp() const;
   virtual const BlockCommentNode* AsBlockComment() const;
   virtual const BlockNode* AsBlock() const;
   virtual const ConditionNode* AsCondition() const;
   virtual const EndNode* AsEnd() const;
   virtual const FunctionCallNode* AsFunctionCall() const;
   virtual const IdentifierNode* AsIdentifier() const;
   virtual const ListNode* AsList() const;
   virtual const LiteralNode* AsLiteral() const;
   virtual const UnaryOpNode* AsUnaryOp() const;

   virtual Value Execute(Scope* scope, Err* err) const = 0;

   virtual LocationRange GetRange() const = 0;

   // Returns an error with the given messages and the range set to something
   // that indicates this node.
   virtual Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const = 0;

   // Generates a representation of this node in base::Value, to be used for
   // exporting the tree as a JSON or formatted text with indents.
   virtual base::Value GetJSONNode() const = 0;

   const Comments* comments() const { return comments_.get(); }
   Comments* comments_mutable();

   static std::unique_ptr<ParseNode> BuildFromJSON(const base::Value& value);

  protected:
   // Helper functions for GetJSONNode. Creates and fills a Value object with
   // given type (and value).
   base::Value CreateJSONNode(const char* type, LocationRange location) const;
   base::Value CreateJSONNode(const char* type,
                              const std::string_view& value,
                              LocationRange location) const;

  private:
   // Helper function for CreateJSONNode.
   void AddCommentsJSONNodes(base::Value* out_value) const;

   std::unique_ptr<Comments> comments_;

   DISALLOW_COPY_AND_ASSIGN(ParseNode);
 };

 // AccessorNode ----------------------------------------------------------------

 // Access an array or scope element.
 //
 // Currently, such values are only read-only. In that you can do:
 //   a = obj1.a
 //   b = obj2[0]
 // But not
 //   obj1.a = 5
 //   obj2[0] = 6
 //
 // In the current design where the dot operator is used only for templates, we
 // explicitly don't want to allow you to do "invoker.foo = 5", so if we added
 // support for accessors to be lvalues, we would also need to add some concept
 // of a constant scope. Supporting this would also add a lot of complications
 // to the operator= implementation, since some accessors might return values
 // in the const root scope that shouldn't be modified. Without a strong
 // use-case for this, it seems simpler to just disallow it.
 //
 // Additionally, the left-hand-side of the accessor must currently be an
 // identifier. So you can't do things like:
 //   function_call()[1]
 //   a = b.c.d
 // These are easier to implement if we needed them but given the very limited
 // use cases for this, it hasn't seemed worth the bother.
 class AccessorNode : public ParseNode {
  public:
   AccessorNode();
   ~AccessorNode() override;

   const AccessorNode* AsAccessor() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<AccessorNode> NewFromJSON(const base::Value& value);

   // Base is the thing on the left of the [] or dot, currently always required
   // to be an identifier token.
   const Token& base() const { return base_; }
   void set_base(const Token& b) { base_ = b; }

   // Subscript is the expression inside the []. Will be null if member is set.
   const ParseNode* subscript() const { return subscript_.get(); }
   void set_subscript(std::unique_ptr<ParseNode> key) {
     subscript_ = std::move(key);
   }

   // The member is the identifier on the right hand side of the dot. Will be
   // null if the index is set.
   const IdentifierNode* member() const { return member_.get(); }
   void set_member(std::unique_ptr<IdentifierNode> i) { member_ = std::move(i); }

   void SetNewLocation(int line_number);

   // Evaluates the index for list accessor operations and range checks it
   // against the max length of the list. If the index is OK, sets
   // |*computed_index| and returns true. Otherwise sets the |*err| and returns
   // false.
   bool ComputeAndValidateListIndex(Scope* scope,
                                    size_t max_len,
                                    size_t* computed_index,
                                    Err* err) const;

   static constexpr const char* kDumpNodeName = "ACCESSOR";

  private:
   Value ExecuteSubscriptAccess(Scope* scope, Err* err) const;
   Value ExecuteArrayAccess(Scope* scope,
                            const Value* base_value,
                            Err* err) const;
   Value ExecuteScopeSubscriptAccess(Scope* scope,
                                     const Value* base_value,
                                     Err* err) const;
   Value ExecuteScopeAccess(Scope* scope, Err* err) const;

   static constexpr const char* kDumpAccessorKind = "accessor_kind";
   static constexpr const char* kDumpAccessorKindSubscript = "subscript";
   static constexpr const char* kDumpAccessorKindMember = "member";

   Token base_;

   // Either index or member will be set according to what type of access this
   // is.
   std::unique_ptr<ParseNode> subscript_;
   std::unique_ptr<IdentifierNode> member_;

   DISALLOW_COPY_AND_ASSIGN(AccessorNode);
 };

 // BinaryOpNode ----------------------------------------------------------------

 class BinaryOpNode : public ParseNode {
  public:
   BinaryOpNode();
   ~BinaryOpNode() override;

   const BinaryOpNode* AsBinaryOp() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<BinaryOpNode> NewFromJSON(const base::Value& value);

   const Token& op() const { return op_; }
   void set_op(const Token& t) { op_ = t; }

   const ParseNode* left() const { return left_.get(); }
   void set_left(std::unique_ptr<ParseNode> left) { left_ = std::move(left); }

   const ParseNode* right() const { return right_.get(); }
   void set_right(std::unique_ptr<ParseNode> right) {
     right_ = std::move(right);
   }

   static constexpr const char* kDumpNodeName = "BINARY";

  private:
   std::unique_ptr<ParseNode> left_;
   Token op_;
   std::unique_ptr<ParseNode> right_;

   DISALLOW_COPY_AND_ASSIGN(BinaryOpNode);
 };

 // BlockNode -------------------------------------------------------------------

 class BlockNode : public ParseNode {
  public:
   // How Execute manages the scopes and results.
   enum ResultMode {
     // Creates a new scope for the execution of this block and returns it as
     // a Value from Execute().
     RETURNS_SCOPE,

     // Executes in the context of the calling scope (variables set will go
     // into the invoking scope) and Execute will return an empty Value.
     DISCARDS_RESULT
   };

   BlockNode(ResultMode result_mode);
   ~BlockNode() override;

   const BlockNode* AsBlock() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<BlockNode> NewFromJSON(const base::Value& value);

   void set_begin_token(const Token& t) { begin_token_ = t; }
   void set_end(std::unique_ptr<EndNode> e) { end_ = std::move(e); }
   const EndNode* End() const { return end_.get(); }

   ResultMode result_mode() const { return result_mode_; }

   const std::vector<std::unique_ptr<ParseNode>>& statements() const {
     return statements_;
   }
   void append_statement(std::unique_ptr<ParseNode> s) {
     statements_.push_back(std::move(s));
   }

   static constexpr const char* kDumpNodeName = "BLOCK";

  private:
   static constexpr const char* kDumpResultMode = "result_mode";
   static constexpr const char* kDumpResultModeReturnsScope = "returns_scope";
   static constexpr const char* kDumpResultModeDiscardsResult =
       "discards_result";

   const ResultMode result_mode_;

   // Tokens corresponding to { and }, if any (may be NULL). The end is stored
   // in a custom parse node so that it can have comments hung off of it.
   Token begin_token_;
   std::unique_ptr<EndNode> end_;

   std::vector<std::unique_ptr<ParseNode>> statements_;

   DISALLOW_COPY_AND_ASSIGN(BlockNode);
 };

 // ConditionNode ---------------------------------------------------------------

 class ConditionNode : public ParseNode {
  public:
   ConditionNode();
   ~ConditionNode() override;

   const ConditionNode* AsCondition() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<ConditionNode> NewFromJSON(const base::Value& value);

   void set_if_token(const Token& token) { if_token_ = token; }

   const ParseNode* condition() const { return condition_.get(); }
   void set_condition(std::unique_ptr<ParseNode> c) {
     condition_ = std::move(c);
   }

   const BlockNode* if_true() const { return if_true_.get(); }
   void set_if_true(std::unique_ptr<BlockNode> t) { if_true_ = std::move(t); }

   // This is either empty, a block (for the else clause), or another
   // condition.
   const ParseNode* if_false() const { return if_false_.get(); }
   void set_if_false(std::unique_ptr<ParseNode> f) { if_false_ = std::move(f); }

   static constexpr const char* kDumpNodeName = "CONDITION";

  private:
   // Token corresponding to the "if" string.
   Token if_token_;

   std::unique_ptr<ParseNode> condition_;  // Always non-null.
   std::unique_ptr<BlockNode> if_true_;    // Always non-null.
   std::unique_ptr<ParseNode> if_false_;   // May be null.

   DISALLOW_COPY_AND_ASSIGN(ConditionNode);
 };

 // FunctionCallNode ------------------------------------------------------------

 class FunctionCallNode : public ParseNode {
  public:
   FunctionCallNode();
   ~FunctionCallNode() override;

   const FunctionCallNode* AsFunctionCall() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<FunctionCallNode> NewFromJSON(
       const base::Value& value);

   const Token& function() const { return function_; }
   void set_function(Token t) { function_ = t; }

   const ListNode* args() const { return args_.get(); }
   void set_args(std::unique_ptr<ListNode> a) { args_ = std::move(a); }

   const BlockNode* block() const { return block_.get(); }
   void set_block(std::unique_ptr<BlockNode> b) { block_ = std::move(b); }

   void SetNewLocation(int line_number);

   static constexpr const char* kDumpNodeName = "FUNCTION";

  private:
   Token function_;
   std::unique_ptr<ListNode> args_;
   std::unique_ptr<BlockNode> block_;  // May be null.

   DISALLOW_COPY_AND_ASSIGN(FunctionCallNode);
 };

 // IdentifierNode --------------------------------------------------------------

 class IdentifierNode : public ParseNode {
  public:
   IdentifierNode();
   explicit IdentifierNode(const Token& token);
   ~IdentifierNode() override;

   const IdentifierNode* AsIdentifier() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<IdentifierNode> NewFromJSON(const base::Value& value);

   const Token& value() const { return value_; }
   void set_value(const Token& t) { value_ = t; }

   void SetNewLocation(int line_number);

   static constexpr const char* kDumpNodeName = "IDENTIFIER";

  private:
   Token value_;

   DISALLOW_COPY_AND_ASSIGN(IdentifierNode);
 };

 // ListNode --------------------------------------------------------------------

 class ListNode : public ParseNode {
  public:
   ListNode();
   ~ListNode() override;

   const ListNode* AsList() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<ListNode> NewFromJSON(const base::Value& value);

   void set_begin_token(const Token& t) { begin_token_ = t; }
   const Token& Begin() const { return begin_token_; }
   void set_end(std::unique_ptr<EndNode> e) { end_ = std::move(e); }
   const EndNode* End() const { return end_.get(); }

   void append_item(std::unique_ptr<ParseNode> s) {
     contents_.push_back(std::move(s));
   }
   const std::vector<std::unique_ptr<const ParseNode>>& contents() const {
     return contents_;
   }

   void SortAsStringsList();
   void SortAsTargetsList();

   struct SortRange {
     size_t begin;
     size_t end;
     SortRange(size_t begin, size_t end) : begin(begin), end(end) {}
   };
   // Only public for testing.
   std::vector<SortRange> GetSortRanges() const;

   static constexpr const char* kDumpNodeName = "LIST";

  private:
   template <typename Comparator>
   void SortList(Comparator comparator);

   // Tokens corresponding to the [ and ]. The end token is stored in inside an
   // custom parse node so that it can have comments hung off of it.
   Token begin_token_;
   std::unique_ptr<EndNode> end_;

   std::vector<std::unique_ptr<const ParseNode>> contents_;

   DISALLOW_COPY_AND_ASSIGN(ListNode);
 };

 // LiteralNode -----------------------------------------------------------------

 class LiteralNode : public ParseNode {
  public:
   LiteralNode();
   explicit LiteralNode(const Token& token);
   ~LiteralNode() override;

   const LiteralNode* AsLiteral() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<LiteralNode> NewFromJSON(const base::Value& value);

   const Token& value() const { return value_; }
   void set_value(const Token& t) { value_ = t; }

   void SetNewLocation(int line_number);

   static constexpr const char* kDumpNodeName = "LITERAL";

  private:
   Token value_;

   DISALLOW_COPY_AND_ASSIGN(LiteralNode);
 };

 // UnaryOpNode -----------------------------------------------------------------

 class UnaryOpNode : public ParseNode {
  public:
   UnaryOpNode();
   ~UnaryOpNode() override;

   const UnaryOpNode* AsUnaryOp() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<UnaryOpNode> NewFromJSON(const base::Value& value);

   const Token& op() const { return op_; }
   void set_op(const Token& t) { op_ = t; }

   const ParseNode* operand() const { return operand_.get(); }
   void set_operand(std::unique_ptr<ParseNode> operand) {
     operand_ = std::move(operand);
   }

   static constexpr const char* kDumpNodeName = "UNARY";

  private:
   Token op_;
   std::unique_ptr<ParseNode> operand_;

   DISALLOW_COPY_AND_ASSIGN(UnaryOpNode);
 };

 // BlockCommentNode ------------------------------------------------------------

 // This node type is only used for standalone comments (that is, those not
 // specifically attached to another syntax element. The most common of these
 // is a standard header block. This node contains only the last line of such
 // a comment block as the anchor, and other lines of the block comment are
 // hung off of it as Before comments, similar to other syntax elements.
 class BlockCommentNode : public ParseNode {
  public:
   BlockCommentNode();
   ~BlockCommentNode() override;

   const BlockCommentNode* AsBlockComment() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<BlockCommentNode> NewFromJSON(
       const base::Value& value);

   const Token& comment() const { return comment_; }
   void set_comment(const Token& t) { comment_ = t; }

   static constexpr const char* kDumpNodeName = "BLOCK_COMMENT";

  private:
   Token comment_;

   DISALLOW_COPY_AND_ASSIGN(BlockCommentNode);
 };

 // EndNode ---------------------------------------------------------------------

 // This node type is used as the end_ object for lists and blocks (rather than
 // just the end ']', '}', or ')' token). This is so that during formatting
 // traversal there is a node that appears at the end of the block to which
 // comments can be attached.
 class EndNode : public ParseNode {
  public:
   explicit EndNode(const Token& token);
   ~EndNode() override;

   const EndNode* AsEnd() const override;
   Value Execute(Scope* scope, Err* err) const override;
   LocationRange GetRange() const override;
   Err MakeErrorDescribing(
       const std::string& msg,
       const std::string& help = std::string()) const override;
   base::Value GetJSONNode() const override;
   static std::unique_ptr<EndNode> NewFromJSON(const base::Value& value);

   const Token& value() const { return value_; }
   void set_value(const Token& t) { value_ = t; }

   static constexpr const char* kDumpNodeName = "END";

  private:
   Token value_;

   DISALLOW_COPY_AND_ASSIGN(EndNode);
 };

 #endif  // TOOLS_GN_PARSE_TREE_H_
	// Copyright 2014 The Chromium 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 TOOLS_GN_PARSE_TREE_H_
	#define TOOLS_GN_PARSE_TREE_H_

	#include <stddef.h>

	#include <memory>
	#include <utility>
	#include <vector>

	#include "base/macros.h"
	#include "base/values.h"
	#include "gn/err.h"
	#include "gn/token.h"
	#include "gn/value.h"

	class AccessorNode;
	class BinaryOpNode;
	class BlockCommentNode;
	class BlockNode;
	class ConditionNode;
	class EndNode;
	class FunctionCallNode;
	class IdentifierNode;
	class ListNode;
	class LiteralNode;
	class Scope;
	class UnaryOpNode;

	// Dictionary keys used for JSON-formatted tree dump.
	extern const char kJsonNodeChild[];
	extern const char kJsonNodeType[];
	extern const char kJsonNodeValue[];
	extern const char kJsonBeforeComment[];
	extern const char kJsonSuffixComment[];
	extern const char kJsonAfterComment[];

	class Comments {
	public:
	Comments();
	virtual ~Comments();

	const std::vector<Token>& before() const { return before_; }
	void append_before(Token c) { before_.push_back(c); }
	void clear_before() { before_.clear(); }

	const std::vector<Token>& suffix() const { return suffix_; }
	void append_suffix(Token c) { suffix_.push_back(c); }
	// Reverse the order of the suffix comments. When walking the tree in
	// post-order we append suffix comments in reverse order, so this fixes them
	// up.
	void ReverseSuffix();

	const std::vector<Token>& after() const { return after_; }
	void append_after(Token c) { after_.push_back(c); }

	private:
	// Whole line comments before the expression.
	std::vector<Token> before_;

	// End-of-line comments after this expression.
	std::vector<Token> suffix_;

	// For top-level expressions only, after_ lists whole-line comments
	// following the expression.
	std::vector<Token> after_;

	DISALLOW_COPY_AND_ASSIGN(Comments);
	};

	// ParseNode -------------------------------------------------------------------

	// A node in the AST.
	class ParseNode {
	public:
	ParseNode();
	virtual ~ParseNode();

	virtual const AccessorNode* AsAccessor() const;
	virtual const BinaryOpNode* AsBinaryOp() const;
	virtual const BlockCommentNode* AsBlockComment() const;
	virtual const BlockNode* AsBlock() const;
	virtual const ConditionNode* AsCondition() const;
	virtual const EndNode* AsEnd() const;
	virtual const FunctionCallNode* AsFunctionCall() const;
	virtual const IdentifierNode* AsIdentifier() const;
	virtual const ListNode* AsList() const;
	virtual const LiteralNode* AsLiteral() const;
	virtual const UnaryOpNode* AsUnaryOp() const;

	virtual Value Execute(Scope* scope, Err* err) const = 0;

	virtual LocationRange GetRange() const = 0;

	// Returns an error with the given messages and the range set to something
	// that indicates this node.
	virtual Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const = 0;

	// Generates a representation of this node in base::Value, to be used for
	// exporting the tree as a JSON or formatted text with indents.
	virtual base::Value GetJSONNode() const = 0;

	const Comments* comments() const { return comments_.get(); }
	Comments* comments_mutable();

	static std::unique_ptr<ParseNode> BuildFromJSON(const base::Value& value);

	protected:
	// Helper functions for GetJSONNode. Creates and fills a Value object with
	// given type (and value).
	base::Value CreateJSONNode(const char* type, LocationRange location) const;
	base::Value CreateJSONNode(const char* type,
	const std::string_view& value,
	LocationRange location) const;

	private:
	// Helper function for CreateJSONNode.
	void AddCommentsJSONNodes(base::Value* out_value) const;

	std::unique_ptr<Comments> comments_;

	DISALLOW_COPY_AND_ASSIGN(ParseNode);
	};

	// AccessorNode ----------------------------------------------------------------

	// Access an array or scope element.
	//
	// Currently, such values are only read-only. In that you can do:
	// a = obj1.a
	// b = obj2[0]
	// But not
	// obj1.a = 5
	// obj2[0] = 6
	//
	// In the current design where the dot operator is used only for templates, we
	// explicitly don't want to allow you to do "invoker.foo = 5", so if we added
	// support for accessors to be lvalues, we would also need to add some concept
	// of a constant scope. Supporting this would also add a lot of complications
	// to the operator= implementation, since some accessors might return values
	// in the const root scope that shouldn't be modified. Without a strong
	// use-case for this, it seems simpler to just disallow it.
	//
	// Additionally, the left-hand-side of the accessor must currently be an
	// identifier. So you can't do things like:
	// function_call()[1]
	// a = b.c.d
	// These are easier to implement if we needed them but given the very limited
	// use cases for this, it hasn't seemed worth the bother.
	class AccessorNode : public ParseNode {
	public:
	AccessorNode();
	~AccessorNode() override;

	const AccessorNode* AsAccessor() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<AccessorNode> NewFromJSON(const base::Value& value);

	// Base is the thing on the left of the [] or dot, currently always required
	// to be an identifier token.
	const Token& base() const { return base_; }
	void set_base(const Token& b) { base_ = b; }

	// Subscript is the expression inside the []. Will be null if member is set.
	const ParseNode* subscript() const { return subscript_.get(); }
	void set_subscript(std::unique_ptr<ParseNode> key) {
	subscript_ = std::move(key);
	}

	// The member is the identifier on the right hand side of the dot. Will be
	// null if the index is set.
	const IdentifierNode* member() const { return member_.get(); }
	void set_member(std::unique_ptr<IdentifierNode> i) { member_ = std::move(i); }

	void SetNewLocation(int line_number);

	// Evaluates the index for list accessor operations and range checks it
	// against the max length of the list. If the index is OK, sets
	// \|computed_index\| and returns true. Otherwise sets the \|err\| and returns
	// false.
	bool ComputeAndValidateListIndex(Scope* scope,
	size_t max_len,
	size_t* computed_index,
	Err* err) const;

	static constexpr const char* kDumpNodeName = "ACCESSOR";

	private:
	Value ExecuteSubscriptAccess(Scope* scope, Err* err) const;
	Value ExecuteArrayAccess(Scope* scope,
	const Value* base_value,
	Err* err) const;
	Value ExecuteScopeSubscriptAccess(Scope* scope,
	const Value* base_value,
	Err* err) const;
	Value ExecuteScopeAccess(Scope* scope, Err* err) const;

	static constexpr const char* kDumpAccessorKind = "accessor_kind";
	static constexpr const char* kDumpAccessorKindSubscript = "subscript";
	static constexpr const char* kDumpAccessorKindMember = "member";

	Token base_;

	// Either index or member will be set according to what type of access this
	// is.
	std::unique_ptr<ParseNode> subscript_;
	std::unique_ptr<IdentifierNode> member_;

	DISALLOW_COPY_AND_ASSIGN(AccessorNode);
	};

	// BinaryOpNode ----------------------------------------------------------------

	class BinaryOpNode : public ParseNode {
	public:
	BinaryOpNode();
	~BinaryOpNode() override;

	const BinaryOpNode* AsBinaryOp() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<BinaryOpNode> NewFromJSON(const base::Value& value);

	const Token& op() const { return op_; }
	void set_op(const Token& t) { op_ = t; }

	const ParseNode* left() const { return left_.get(); }
	void set_left(std::unique_ptr<ParseNode> left) { left_ = std::move(left); }

	const ParseNode* right() const { return right_.get(); }
	void set_right(std::unique_ptr<ParseNode> right) {
	right_ = std::move(right);
	}

	static constexpr const char* kDumpNodeName = "BINARY";

	private:
	std::unique_ptr<ParseNode> left_;
	Token op_;
	std::unique_ptr<ParseNode> right_;

	DISALLOW_COPY_AND_ASSIGN(BinaryOpNode);
	};

	// BlockNode -------------------------------------------------------------------

	class BlockNode : public ParseNode {
	public:
	// How Execute manages the scopes and results.
	enum ResultMode {
	// Creates a new scope for the execution of this block and returns it as
	// a Value from Execute().
	RETURNS_SCOPE,

	// Executes in the context of the calling scope (variables set will go
	// into the invoking scope) and Execute will return an empty Value.
	DISCARDS_RESULT
	};

	BlockNode(ResultMode result_mode);
	~BlockNode() override;

	const BlockNode* AsBlock() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<BlockNode> NewFromJSON(const base::Value& value);

	void set_begin_token(const Token& t) { begin_token_ = t; }
	void set_end(std::unique_ptr<EndNode> e) { end_ = std::move(e); }
	const EndNode* End() const { return end_.get(); }

	ResultMode result_mode() const { return result_mode_; }

	const std::vector<std::unique_ptr<ParseNode>>& statements() const {
	return statements_;
	}
	void append_statement(std::unique_ptr<ParseNode> s) {
	statements_.push_back(std::move(s));
	}

	static constexpr const char* kDumpNodeName = "BLOCK";

	private:
	static constexpr const char* kDumpResultMode = "result_mode";
	static constexpr const char* kDumpResultModeReturnsScope = "returns_scope";
	static constexpr const char* kDumpResultModeDiscardsResult =
	"discards_result";

	const ResultMode result_mode_;

	// Tokens corresponding to { and }, if any (may be NULL). The end is stored
	// in a custom parse node so that it can have comments hung off of it.
	Token begin_token_;
	std::unique_ptr<EndNode> end_;

	std::vector<std::unique_ptr<ParseNode>> statements_;

	DISALLOW_COPY_AND_ASSIGN(BlockNode);
	};

	// ConditionNode ---------------------------------------------------------------

	class ConditionNode : public ParseNode {
	public:
	ConditionNode();
	~ConditionNode() override;

	const ConditionNode* AsCondition() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<ConditionNode> NewFromJSON(const base::Value& value);

	void set_if_token(const Token& token) { if_token_ = token; }

	const ParseNode* condition() const { return condition_.get(); }
	void set_condition(std::unique_ptr<ParseNode> c) {
	condition_ = std::move(c);
	}

	const BlockNode* if_true() const { return if_true_.get(); }
	void set_if_true(std::unique_ptr<BlockNode> t) { if_true_ = std::move(t); }

	// This is either empty, a block (for the else clause), or another
	// condition.
	const ParseNode* if_false() const { return if_false_.get(); }
	void set_if_false(std::unique_ptr<ParseNode> f) { if_false_ = std::move(f); }

	static constexpr const char* kDumpNodeName = "CONDITION";

	private:
	// Token corresponding to the "if" string.
	Token if_token_;

	std::unique_ptr<ParseNode> condition_; // Always non-null.
	std::unique_ptr<BlockNode> if_true_; // Always non-null.
	std::unique_ptr<ParseNode> if_false_; // May be null.

	DISALLOW_COPY_AND_ASSIGN(ConditionNode);
	};

	// FunctionCallNode ------------------------------------------------------------

	class FunctionCallNode : public ParseNode {
	public:
	FunctionCallNode();
	~FunctionCallNode() override;

	const FunctionCallNode* AsFunctionCall() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<FunctionCallNode> NewFromJSON(
	const base::Value& value);

	const Token& function() const { return function_; }
	void set_function(Token t) { function_ = t; }

	const ListNode* args() const { return args_.get(); }
	void set_args(std::unique_ptr<ListNode> a) { args_ = std::move(a); }

	const BlockNode* block() const { return block_.get(); }
	void set_block(std::unique_ptr<BlockNode> b) { block_ = std::move(b); }

	void SetNewLocation(int line_number);

	static constexpr const char* kDumpNodeName = "FUNCTION";

	private:
	Token function_;
	std::unique_ptr<ListNode> args_;
	std::unique_ptr<BlockNode> block_; // May be null.

	DISALLOW_COPY_AND_ASSIGN(FunctionCallNode);
	};

	// IdentifierNode --------------------------------------------------------------

	class IdentifierNode : public ParseNode {
	public:
	IdentifierNode();
	explicit IdentifierNode(const Token& token);
	~IdentifierNode() override;

	const IdentifierNode* AsIdentifier() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<IdentifierNode> NewFromJSON(const base::Value& value);

	const Token& value() const { return value_; }
	void set_value(const Token& t) { value_ = t; }

	void SetNewLocation(int line_number);

	static constexpr const char* kDumpNodeName = "IDENTIFIER";

	private:
	Token value_;

	DISALLOW_COPY_AND_ASSIGN(IdentifierNode);
	};

	// ListNode --------------------------------------------------------------------

	class ListNode : public ParseNode {
	public:
	ListNode();
	~ListNode() override;

	const ListNode* AsList() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<ListNode> NewFromJSON(const base::Value& value);

	void set_begin_token(const Token& t) { begin_token_ = t; }
	const Token& Begin() const { return begin_token_; }
	void set_end(std::unique_ptr<EndNode> e) { end_ = std::move(e); }
	const EndNode* End() const { return end_.get(); }

	void append_item(std::unique_ptr<ParseNode> s) {
	contents_.push_back(std::move(s));
	}
	const std::vector<std::unique_ptr<const ParseNode>>& contents() const {
	return contents_;
	}

	void SortAsStringsList();
	void SortAsTargetsList();

	struct SortRange {
	size_t begin;
	size_t end;
	SortRange(size_t begin, size_t end) : begin(begin), end(end) {}
	};
	// Only public for testing.
	std::vector<SortRange> GetSortRanges() const;

	static constexpr const char* kDumpNodeName = "LIST";

	private:
	template <typename Comparator>
	void SortList(Comparator comparator);

	// Tokens corresponding to the [ and ]. The end token is stored in inside an
	// custom parse node so that it can have comments hung off of it.
	Token begin_token_;
	std::unique_ptr<EndNode> end_;

	std::vector<std::unique_ptr<const ParseNode>> contents_;

	DISALLOW_COPY_AND_ASSIGN(ListNode);
	};

	// LiteralNode -----------------------------------------------------------------

	class LiteralNode : public ParseNode {
	public:
	LiteralNode();
	explicit LiteralNode(const Token& token);
	~LiteralNode() override;

	const LiteralNode* AsLiteral() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<LiteralNode> NewFromJSON(const base::Value& value);

	const Token& value() const { return value_; }
	void set_value(const Token& t) { value_ = t; }

	void SetNewLocation(int line_number);

	static constexpr const char* kDumpNodeName = "LITERAL";

	private:
	Token value_;

	DISALLOW_COPY_AND_ASSIGN(LiteralNode);
	};

	// UnaryOpNode -----------------------------------------------------------------

	class UnaryOpNode : public ParseNode {
	public:
	UnaryOpNode();
	~UnaryOpNode() override;

	const UnaryOpNode* AsUnaryOp() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<UnaryOpNode> NewFromJSON(const base::Value& value);

	const Token& op() const { return op_; }
	void set_op(const Token& t) { op_ = t; }

	const ParseNode* operand() const { return operand_.get(); }
	void set_operand(std::unique_ptr<ParseNode> operand) {
	operand_ = std::move(operand);
	}

	static constexpr const char* kDumpNodeName = "UNARY";

	private:
	Token op_;
	std::unique_ptr<ParseNode> operand_;

	DISALLOW_COPY_AND_ASSIGN(UnaryOpNode);
	};

	// BlockCommentNode ------------------------------------------------------------

	// This node type is only used for standalone comments (that is, those not
	// specifically attached to another syntax element. The most common of these
	// is a standard header block. This node contains only the last line of such
	// a comment block as the anchor, and other lines of the block comment are
	// hung off of it as Before comments, similar to other syntax elements.
	class BlockCommentNode : public ParseNode {
	public:
	BlockCommentNode();
	~BlockCommentNode() override;

	const BlockCommentNode* AsBlockComment() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<BlockCommentNode> NewFromJSON(
	const base::Value& value);

	const Token& comment() const { return comment_; }
	void set_comment(const Token& t) { comment_ = t; }

	static constexpr const char* kDumpNodeName = "BLOCK_COMMENT";

	private:
	Token comment_;

	DISALLOW_COPY_AND_ASSIGN(BlockCommentNode);
	};

	// EndNode ---------------------------------------------------------------------

	// This node type is used as the end_ object for lists and blocks (rather than
	// just the end ']', '}', or ')' token). This is so that during formatting
	// traversal there is a node that appears at the end of the block to which
	// comments can be attached.
	class EndNode : public ParseNode {
	public:
	explicit EndNode(const Token& token);
	~EndNode() override;

	const EndNode* AsEnd() const override;
	Value Execute(Scope* scope, Err* err) const override;
	LocationRange GetRange() const override;
	Err MakeErrorDescribing(
	const std::string& msg,
	const std::string& help = std::string()) const override;
	base::Value GetJSONNode() const override;
	static std::unique_ptr<EndNode> NewFromJSON(const base::Value& value);

	const Token& value() const { return value_; }
	void set_value(const Token& t) { value_ = t; }

	static constexpr const char* kDumpNodeName = "END";

	private:
	Token value_;

	DISALLOW_COPY_AND_ASSIGN(EndNode);
	};

	#endif // TOOLS_GN_PARSE_TREE_H_