// 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 Lang
import Runtime
import SwiftTreeSitter
import TreeSitterExtensions
import TreeSitterP4
let p4lang = Language(tree_sitter_p4())
public protocol ParseableValueType {
static func Parse(type: String, withValue value: String) -> Result
}
// This seems unnecessary because all the value types are in a single enum?
extension ValueType: ParseableValueType {
public static func Parse(type: String, withValue value: String) -> Result {
if type == "bool" {
// Default
if value == "" {
return .Ok(ValueType.Boolean(false))
}
if value == "true" {
return .Ok(ValueType.Boolean(true))
} else if value == "false" {
return .Ok(ValueType.Boolean(false))
}
return .Error(Error(withMessage: "Cannot convert \(value) into boolean value"))
} else if type == "string" {
return .Ok(ValueType.String(value))
} else if type == "int" {
// Default
if value == "" {
return .Ok(ValueType.Int(0))
}
guard let parsed_value = Swift.Int(value) else {
return .Error(Error(withMessage: "Cannot convert \(value) into integer value"))
}
return .Ok(ValueType.Int(parsed_value))
}
return .Error(Error(withMessage: "Invalid type"))
}
}
public protocol ParseableParserStatement {
static func Parse(node: Node, inTree tree: MutableTree) -> Result
}
extension ExpressionStatement: ParseableParserStatement {
public static func Parse(
node: Node, inTree tree: MutableTree
) -> Result {
guard
let parser_state_query = try? SwiftTreeSitter.Query(
language: p4lang,
data: String(
"(expressionStatement (expression) @expression)"
).data(using: String.Encoding.utf8)!)
else {
return Result.Ok(.none)
}
let qr = parser_state_query.execute(node: node, in: tree)
let query_result = qr.next()!
let expression_capture = query_result.captures(named: "expression")
if !expression_capture.isEmpty {
// TODO: Actually create an ExpressionStatement
return Result.Ok(ExpressionStatement())
}
return Result.Ok(.none)
}
}
extension VariableDeclarationStatement: ParseableParserStatement {
public static func Parse(
node: Node, inTree tree: MutableTree
) -> Result {
guard
let parser_state_query = try? SwiftTreeSitter.Query(
language: p4lang,
data: String(
"((annotations)? (typeRef) @type-name variable_name: (identifier) @identifier ((assignment) (expression) @value)?)"
).data(using: String.Encoding.utf8)!)
else {
return Result.Ok(.none)
}
let qr = parser_state_query.execute(node: node, in: tree)
let parser_declaration = qr.next()!
let type_name_capture = parser_declaration.captures(named: "type-name")
let variable_name_capture = parser_declaration.captures(named: "identifier")
let value_capture = parser_declaration.captures(named: "value")
// There must be a type name and a variable name
guard !type_name_capture.isEmpty,
!variable_name_capture.isEmpty,
let variable_name = variable_name_capture[0].node.text,
let type_name = type_name_capture[0].node.text
else {
return Result.Error(Error(withMessage: "Could not parse a parser declaration"))
}
let value =
if !value_capture.isEmpty {
value_capture[0].node.text!
} else {
""
}
return switch ValueType.Parse(type: type_name, withValue: value) {
case Result.Ok(let value_type):
Result.Ok(
VariableDeclarationStatement(
withVariable: Variable(name: variable_name, withValue: value_type, isConstant: false)))
case Result.Error(let e):
Result.Error(e)
}
}
}
public struct Parser {
public struct P4Parser {
static func LocalElements(
node: Node, inTree tree: MutableTree
) -> Result<[EvaluatableParserStatement]> {
guard
let parser_le_statement_query = try? SwiftTreeSitter.Query(
language: p4lang,
data: String(
"(parserLocalElement) @parser-local-element"
).data(using: String.Encoding.utf8)!)
else {
return Result.Error(Error(withMessage: "Could not compile the tree sitter query"))
}
let localElementsParsers: [ParseableParserStatement.Type] = [
VariableDeclarationStatement.self
]
var localElements: [EvaluatableParserStatement] = Array()
let qr = parser_le_statement_query.execute(node: node, in: tree)
for raw_le_statement in qr {
let raw_le_statement_capture = raw_le_statement.captures(named: "parser-local-element")
var parsed_le_statement: EvaluatableParserStatement? = .none
for le_parser in localElementsParsers {
if case Result.Ok(.some(let parsed)) = le_parser.Parse(
node: raw_le_statement_capture[0].node, inTree: tree)
{
parsed_le_statement = parsed
break
}
}
if let le_statement = parsed_le_statement {
localElements.append(le_statement)
} else {
// There were no parseable statements.
return Result.Error(
Error(withMessage: "Failed to parse a local element: \(raw_le_statement)"))
}
}
return Result.Ok(localElements)
}
static func Statements(
node: Node, inTree tree: MutableTree
) -> Result<[EvaluatableParserStatement]> {
guard
let parser_statement_query = try? SwiftTreeSitter.Query(
language: p4lang,
data: String(
"(parserStatement) @parser-statement"
).data(using: String.Encoding.utf8)!)
else {
return Result.Error(Error(withMessage: "Could not compile the tree sitter query"))
}
let statementParsers: [ParseableParserStatement.Type] = [
ExpressionStatement.self, VariableDeclarationStatement.self,
]
var statements: [EvaluatableParserStatement] = Array()
let qr = parser_statement_query.execute(node: node, in: tree)
for raw_statement in qr {
let raw_statement_capture = raw_statement.captures(named: "parser-statement")
var parsed_statement: EvaluatableParserStatement? = .none
// Iterate through statement parsers and give each one a chance.
for parser in statementParsers {
if case Result.Ok(.some(let parsed)) = parser.Parse(
node: raw_statement_capture[0].node, inTree: tree)
{
parsed_statement = parsed
break
}
}
if let statement = parsed_statement {
statements.append(statement)
} else {
// There were no parseable statements.
return Result.Error(
Error(withMessage: "Failed to parse a statement element: \(raw_statement)"))
}
}
return Result.Ok(statements)
}
static func TransitionStatement(
node: Node, inTree tree: MutableTree
) -> ParserTransitionStatement? {
return ParserTransitionStatement()
}
static func State(node: Node, inTree tree: MutableTree) -> Result {
guard
let parser_state_query = try? SwiftTreeSitter.Query(
language: p4lang,
data: String(
"(parserState (state) (identifier) @state-name (parserLocalElements)? @state-local-elements (parserStatements)? @state-statements (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-elements")
let statements_capture = parser_declaration.captures(named: "state-statements")
// There must be a state name and there must be a transition statement.
guard !state_name_capture.isEmpty,
!transition_capture.isEmpty,
let parsed_state_name = state_name_capture[0].node.text,
let transition_statement = TransitionStatement(
node: transition_capture[0].node, inTree: tree)
else {
return Result.Error(Error(withMessage: "Could not parse a parser declaration"))
}
let maybe_parsed_les =
if !state_le_capture.isEmpty {
LocalElements(node: state_le_capture[0].node, inTree: tree)
} else {
Result.Ok([EvaluatableParserStatement]())
}
guard case Result<[EvaluatableParserStatement]>.Ok(let parsed_les) = maybe_parsed_les else {
return Result.Error(maybe_parsed_les.error()!)
}
let maybe_parsed_statements =
if !statements_capture.isEmpty {
Statements(node: statements_capture[0].node, inTree: tree)
} else {
Result.Ok([EvaluatableParserStatement]())
}
guard
case Result<[EvaluatableParserStatement]>.Ok(let parsed_statements) =
maybe_parsed_statements
else {
return Result.Error(maybe_parsed_statements.error()!)
}
// TODO: Validate that there is only one!
return Result.Ok(
ParserState(
name: parsed_state_name, withLocalElements: parsed_les,
withStatements: parsed_statements,
withTransition: transition_statement))
}
}
static func Parser(node: Node, inTree tree: MutableTree) -> Result {
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 = Lang.Parser()
// Build a state from each one listed.
for parser_states in parser_state_query.execute(node: node, in: tree) {
switch P4Parser.State(node: parser_states.nodes[0], inTree: tree) {
case Result.Ok(let state): parser.states.append(state)
case Result.Error(let error): return Result.Error(error)
}
}
return Result.Ok(parser)
}
public static func Program(_ source: String) -> Result {
let p = SwiftTreeSitter.Parser.init()
do {
try p.setLanguage(p4lang)
} catch {
return Result.Error(Error(withMessage: "Could not configure the P4 parser"))
}
let result = p.parse(source)
guard let tree = result,
!tree.isError(lang: p4lang)
else {
return Result.Error(Error(withMessage: "Could not compile the P4 program"))
}
guard
let parser_declaration_query = try? SwiftTreeSitter.Query(
language: p4lang,
data: String(
"(parserDeclaration (parserType) (parserStates) @parser-states)"
).data(using: String.Encoding.utf8)!)
else {
return Result.Error(
Error(withMessage: "Could not compile the parser declaration tree sitter query"))
}
var program = Lang.Program()
let parser_qc = parser_declaration_query.execute(in: tree)
for parser_declaration in parser_qc {
switch Parser(node: parser_declaration.nodes[0], inTree: tree) {
case Result.Ok(let parser): program.parsers.append(parser)
case Result.Error(let error): return Result.Error(error)
}
}
return Result.Ok(program)
}
}