// p4rse, Copyright 2026, Will Hawkins // // This file is part of p4rse. // // This file is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . import Common import P4Lang import P4Runtime import SwiftTreeSitter import TreeSitterExtensions import TreeSitterP4 let p4lang = Language(tree_sitter_p4()) extension ParserAssignmentStatement: ParseableStatement { public static func Parse( node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes ) -> Result<(EvaluatableStatement?, LexicalScopes)> { guard let parser_assignment_statement_query = try? SwiftTreeSitter.Query( language: p4lang, data: String( "(assignmentStatement (expression) @lvalue (assignment) (expression) @value)" ).data(using: String.Encoding.utf8)!) else { return Result.Ok((.none, scopes)) } let qr = parser_assignment_statement_query.execute(node: node, in: tree) guard let parser_assignment_statement = qr.next() else { return Result.Ok((.none, scopes)) } let lvalue_capture = parser_assignment_statement.captures(named: "lvalue") let rvalue_capture = parser_assignment_statement.captures(named: "value") // There must be a type name and a variable name guard !lvalue_capture.isEmpty, !rvalue_capture.isEmpty, let lvalue_expression_raw = lvalue_capture[0].node.text else { return Result.Error( Error(withMessage: "Could not parse a parser assignment statement")) } let rvalue_raw = rvalue_capture[0].node let maybe_parsed_rvalue = Expression.Parse(node: rvalue_raw, inTree: tree, withScopes: scopes) guard case Result.Ok(let rvalue) = maybe_parsed_rvalue else { return Result.Error(maybe_parsed_rvalue.error()!) } let lvalue_identifier = Identifier(name: lvalue_expression_raw) guard case Result.Ok(let lvalue_type) = scopes.lookup(identifier: lvalue_identifier) else { return Result.Error( Error(withMessage: "Cannot assign to variable \(lvalue_identifier) not in scope")) } if rvalue.type().eq(rhs: lvalue_type) { return Result.Ok( ( ParserAssignmentStatement( withLValue: TypedIdentifier(name: lvalue_expression_raw, withType: lvalue_type), withValue: rvalue ), scopes )) } else { return Result.Error( Error( withMessage: "Cannot assign value of type \(rvalue.type()) to \(lvalue_identifier) (with type \(lvalue_type))" )) } } } public struct Parser { public struct LocalElements { static func Parse( node: Node, inTree tree: MutableTree, withScope scopes: LexicalScopes ) -> Result<(EvaluatableStatement, LexicalScopes)> { let localElementsParsers: [ParseableStatement.Type] = [ VariableDeclarationStatement.self ] for local_element_parser in localElementsParsers { switch local_element_parser.Parse(node: node, inTree: tree, withScopes: scopes) { case Result.Ok((.some(let parsed), let parsed_updated_scopes)): return Result.Ok((parsed, parsed_updated_scopes)) case Result.Error(let e): return Result.Error(Error(withMessage: "Failed to parse local element: \(e)")) default: continue } } return Result.Error( Error( withMessage: "Failed to parse any local elements from specified local elements: \(node.text!)") ) } } public struct Statements { static func Parse( node: Node, inTree tree: MutableTree, withScope scopes: LexicalScopes ) -> Result<(EvaluatableStatement, LexicalScopes)> { let statementParsers: [ParseableStatement.Type] = [ ParserAssignmentStatement.self, ExpressionStatement.self, VariableDeclarationStatement.self, ] // Iterate through statement parsers and give each one a chance. for parser in statementParsers { switch parser.Parse(node: node, inTree: tree, withScopes: scopes) { case Result.Ok((.some(let parsed), let updatedLexicalScopes)): return .Ok((parsed, updatedLexicalScopes)) case Result.Error(let e): return .Error(Error(withMessage: "Failed to parse a statement element: \(e)")) default: continue } } return Result.Error( Error(withMessage: "Failed to parse a statement element: \(node.text!)")) } } public struct TransitionSelectExpressionCaseStatement { static func Parse( node: Node, inTree tree: MutableTree, withLexicalScopes scopes: LexicalScopes ) -> Result<([KeysetExpression], LexicalScopes)> { guard let transition_selection_expression_query = try? SwiftTreeSitter.Query( language: p4lang, data: String( "((keysetExpression (expression) @ks) (colon) (identifier) @next-state)" ).data(using: String.Encoding.utf8)!) else { return Result.Error(Error(withMessage: "Could not compile the tree sitter query")) } let qr = transition_selection_expression_query.execute(node: node, in: tree) var kses: [KeysetExpression] = Array() for expression in qr { let next_state_name = expression.captures[1].node.text! if case .Error(let e) = Expression.Parse( node: expression.captures[0].node, inTree: tree, withScopes: scopes ) .map(block: { expression in kses.append( KeysetExpression( withKey: expression, withNextStateName: next_state_name)) return .Ok(expression) }) { return .Error(e) } } return .Ok((kses, scopes)) } } public struct TransitionSelectExpression { static func Parse( node: Node, inTree tree: MutableTree, withScope scopes: LexicalScopes ) -> Result<(ParserTransitionStatement?, LexicalScopes)> { guard let transition_selection_expression_query = try? SwiftTreeSitter.Query( language: p4lang, data: String( "(parserTransitionStatement (transition) (transitionSelectionExpression (selectExpression (select) (expression) @selector (selectBody) @body)))" ).data(using: String.Encoding.utf8)!) else { return Result.Error(Error(withMessage: "Could not compile the tree sitter query")) } let qr = transition_selection_expression_query.execute(node: node, in: tree) guard let query_result = qr.next() else { return .Error(Error(withMessage: "Could not find transition select expression")) } let selector = query_result.captures(named: "selector") let body = query_result.captures(named: "body") return Expression.Parse(node: selector[0].node, inTree: tree, withScopes: scopes).map { expression in return switch TransitionSelectExpressionCaseStatement.Parse( node: body[0].node, inTree: tree, withLexicalScopes: scopes) { case .Ok((let kse, let newLexicalScopes)): Result<(ParserTransitionStatement?, LexicalScopes)>.Ok( ( ParserTransitionStatement( withTransitionExpression: ParserTransitionSelectExpression( withSelector: expression, withKeysetExpressions: kse)), newLexicalScopes )) case .Error(let e): Result.Error(e) } } } } public struct TransitionStatement { static func Parse( node: Node, inTree tree: MutableTree, withScope scopes: LexicalScopes ) -> Result<(ParserTransitionStatement?, LexicalScopes)> { guard let next_state_query = try? SwiftTreeSitter.Query( language: p4lang, data: String( "(parserTransitionStatement (transition) (transitionSelectionExpression (identifier) @next-state))" ).data(using: String.Encoding.utf8)!) else { return Result.Error(Error(withMessage: "Could not compile the tree sitter query")) } let qr = next_state_query.execute(node: node, in: tree) if let next_state_result = qr.next() { let transition_capture = next_state_result.captures(named: "next-state") return .Ok( (ParserTransitionStatement(withNextState: transition_capture[0].node.text!), scopes)) } return TransitionSelectExpression.Parse(node: node, inTree: tree, withScope: scopes) } } public struct State { static func Parse( node: Node, inTree tree: MutableTree, withLexicalScopes scopes: LexicalScopes ) -> Result<(ParserState, LexicalScopes)> { guard let parser_state_query = try? SwiftTreeSitter.Query( language: p4lang, data: String( "(parserState (state) (identifier) @state-name (parserLocalElements ((parserLocalElement) @state-local-element (semicolon))*)* (parserStatements ((parserStatement) @state-statement (semicolon))*)* (parserTransitionStatement) @transition)" ).data(using: String.Encoding.utf8)!) else { return Result.Error(Error(withMessage: "Could not compile the tree sitter query")) } let qr = parser_state_query.execute(node: node, in: tree) let parser_declaration = qr.next()! let transition_capture = parser_declaration.captures(named: "transition") let state_name_capture = parser_declaration.captures(named: "state-name") let state_le_capture = parser_declaration.captures(named: "state-local-element") let statements_capture = parser_declaration.captures(named: "state-statement") var parsed_les: [EvaluatableStatement] = Array() var parse_err: Error? = .none var current_scopes = scopes.enter() defer { current_scopes = current_scopes.exit() } for state_le in state_le_capture { state_le.node.enumerateChildren { node in switch LocalElements.Parse( node: node, inTree: tree, withScope: current_scopes) { case .Ok((let le, let le_parsed_scopes)): current_scopes = le_parsed_scopes parsed_les.append(le) case .Error(let e): parse_err = e } } } if let parse_err = parse_err { return Result.Error(parse_err) } var parsed_s: [EvaluatableStatement] = Array() if !statements_capture.isEmpty { for statement in statements_capture { statement.node.enumerateChildren { node in switch Statements.Parse( node: node, inTree: tree, withScope: current_scopes) { case .Ok((let le, let le_parsed_scopes)): current_scopes = le_parsed_scopes parsed_s.append(le) case .Error(let e): parse_err = e } } } } if let parse_err = parse_err { return Result.Error(parse_err) } // TODO: Now that scopes are involved, doing this out of order will not work! guard !state_name_capture.isEmpty, !transition_capture.isEmpty, let parsed_state_name = state_name_capture[0].node.text else { return Result.Error(Error(withMessage: "Could not parse a parser declaration")) } switch TransitionStatement.Parse( node: transition_capture[0].node, inTree: tree, withScope: current_scopes) { case .Ok((.some(let transition_statement), let current_scopes)): return Result.Ok( ( ParserState( name: parsed_state_name, withLocalElements: parsed_les, withStatements: parsed_s, withTransition: transition_statement), current_scopes )) case .Error(let e): return .Error(e) case .Ok((.none, _)): return .Error(Error(withMessage: "Missing transition statement")) } } } static func Parse( withName name: Identifier, node: Node, inTree tree: MutableTree, withLexicalScopes scopes: LexicalScopes ) -> Result<(P4Lang.Parser, LexicalScopes)> { guard let parser_state_query = try? SwiftTreeSitter.Query( language: p4lang, data: String( "(parserStates) @parser-states" ).data(using: String.Encoding.utf8)!) else { return Result.Error( Error(withMessage: "Could not compile the parser state tree sitter query")) } var parser = P4Lang.Parser(withName: name) // Build a state from each one listed. let qr = parser_state_query.execute(node: node, in: tree) let qr_value = qr.next()! let captures = qr_value.captures(named: "parser-states") var error: Error? = .none var parser_scopes = scopes // TODO: Assert that there is only one. captures[0].node.enumerateChildren { parser_state in switch Parser.State.Parse(node: parser_state, inTree: tree, withLexicalScopes: scopes) { case Result.Ok(let (state, new_parser_scopes)): parser.states = parser.states.append(state: state) parser_scopes = new_parser_scopes case Result.Error(let e): error = e } } if let error = error { return .Error(error) } return Result.Ok((parser, parser_scopes)) } }