Runtime Work

Signed-off-by: Will Hawkins <hawkinsw@obs.cr>

Package.swift

@@ -1,10 +1,12 @@
 // swift-tools-version: 6.2
 // The swift-tools-version declares the minimum version of Swift required to build this package.
 
+import CompilerPluginSupport
 import PackageDescription
 
 let package = Package(
     name: "p4lm",
+    platforms: [ .iOS(.v17), .macOS(.v13)],
     products: [
         // Products define the executables and libraries a package produces, making them visible to other packages.
         .library(
@@ -14,14 +16,21 @@ let package = Package(
         .library(
             name: "P4",
             targets: ["P4"]
-        )
+        ),
     ],
     dependencies: [
         .package(path: "./tree-sitter-p4"),
         .package(url: "https://github.com/tree-sitter/swift-tree-sitter", revision: "main"),
         .package(url: "https://github.com/apple/swift-docc-plugin", from: "1.0.0"),
+        .package(url: "https://github.com/swiftlang/swift-syntax", from: "509.0.0"),
     ],
     targets: [
+        .macro(
+            name: "P4Macros",
+            dependencies: [
+                .product(name: "SwiftSyntaxMacros", package: "swift-syntax"),
+                .product(name: "SwiftCompilerPlugin", package: "swift-syntax"),
+            ]),
         // Targets are the basic building blocks of a package, defining a module or a test suite.
         // Targets can depend on other targets in this package and products from dependencies.
         .target(
@@ -30,17 +39,18 @@ let package = Package(
                 .product(name: "SwiftTreeSitter", package: "swift-tree-sitter"),
                 .product(name: "SwiftTreeSitterLayer", package: "swift-tree-sitter"),
                 .product(name: "TreeSitterP4", package: "tree-sitter-p4"),
-                .target(name: "P4")
+                .target(name: "P4"),
             ],
         ),
         // Targets are the basic building blocks of a package, defining a module or a test suite.
         // Targets can depend on other targets in this package and products from dependencies.
         .target(
             name: "P4",
+            dependencies: ["P4Macros"]
         ),
         .testTarget(
             name: "ParserTests",
-            dependencies: ["Parser", "P4"]
+            dependencies: ["Parser", "P4", "P4Macros"]
         ),
     ]
 )

Sources/P4/Parser.swift

@@ -6,7 +6,7 @@ public struct LocalElement {
 
 }
 
-public struct ParserExecution {
+public class ParserExecution: ProgramExecution {
     public var state: ParserState
 
     public init(_ state: ParserState) {
@@ -14,7 +14,13 @@ public struct ParserExecution {
     }
 
     public func transition(toNextState state: ParserState) -> ParserExecution {
-        return ParserExecution(state)
+        let next = self
+        next.state = state
+        return next
+    }
+
+    public override var description: String {
+        return "Execution: \(super.description)\nCurrent State: \(state)"
     }
 }
 
@@ -26,7 +32,7 @@ public protocol Expression {
     func evaluate(execution: ParserExecution) -> Value
 }
 
-public protocol ParserStatement: Sendable {
+public protocol ParserStatement {
     /// Evaluate a statement for a given execution
     /// - Parameters
     ///  - execution: The execution context in which to evaluate the parser statement
@@ -41,6 +47,20 @@ public struct ParserTransitionStatement: ParserStatement {
     }
 }
 
+public struct VariableDeclarationStatement: ParserStatement {
+    public var id: Identifier
+    public init(withIdentifier id: Identifier) {
+        self.id = id
+    }
+
+    public func evaluate(execution: ParserExecution) -> ParserExecution {
+        print("Evaluating!")
+        execution.scopes.scopes[0].variables.append(Variable(name: id.name, withValue: id.value, isConstant: false))
+        print("Execution: \(execution)")
+        return execution
+    }
+}
+
 public struct ExpressionStatement: ParserStatement {
     public init() {}
     public func evaluate(execution: ParserExecution) -> ParserExecution {
@@ -48,32 +68,46 @@ public struct ExpressionStatement: ParserStatement {
     }
 }
 
-public struct ParserState: Equatable, Sendable {
+public struct ParserState: Equatable, CustomStringConvertible {
+
     public private(set) var state_name: String
+    public private(set) var local_elements: [ParserStatement]
     public private(set) var statements: [ParserStatement]
     public private(set) var transition: ParserTransitionStatement?
 
+    public var description: String {
+        return "Name: \(state_name)"
+    }
+
     public static func == (lhs: ParserState, rhs: ParserState) -> Bool {
         return lhs.state_name == rhs.state_name
     }
 
     /// Construct a ParserState
-    public init(name: String, withStatements statements: [ParserStatement]?, withTransition transitionStatement: ParserTransitionStatement) {
+    public init(name: String, withLocalElements localElements: [ParserStatement]?, withStatements statements: [ParserStatement]?, withTransition transitionStatement: ParserTransitionStatement) {
         state_name = name
         transition = transitionStatement
+        local_elements = localElements ?? Array()
         self.statements = statements ?? Array()
     }
 
     func evaluate(execution: ParserExecution) -> ParserExecution {
         var currentExecution = execution
+
+        // First, evaluate the local elements.
+        for local_element in local_elements {
+            currentExecution = local_element.evaluate(execution: currentExecution)
+        }
+
+        // Then, evaluate the statements.
         for statement in statements {
             currentExecution = statement.evaluate(execution: currentExecution)
         }
 
         return if let transition = transition {
-            execution.transition(toNextState: accept)
+            currentExecution.transition(toNextState: accept)
         } else {
-            execution.transition(toNextState: reject)
+            currentExecution.transition(toNextState: reject)
         }
     }
 
@@ -83,18 +117,19 @@ public struct ParserState: Equatable, Sendable {
     init(name: String) {
         state_name = name
         transition = .none
+        local_elements = Array()
         statements = Array()
     }
 }
 
-public struct ParserStates: Sendable {
+public struct ParserStates {
     public var states: [ParserState] = Array()
 }
 
-public let accept: ParserState = ParserState(name: "accept")
-public let reject: ParserState = ParserState(name: "reject")
+nonisolated(unsafe) public let accept: ParserState = ParserState(name: "accept")
+nonisolated(unsafe) public let reject: ParserState = ParserState(name: "reject")
 
-public struct Parser {
+public struct Parser: CustomStringConvertible {
     public var states: [ParserState] = Array()
     public var count: Int {
         states.count
@@ -110,4 +145,8 @@ public struct Parser {
         }
         return .none
     }
+
+    public var description: String {
+        return "Parser"
+    }
 }

Sources/P4/Program.swift

@@ -1,4 +1,71 @@
-public struct Program {
+public class Identifier: CustomStringConvertible {
+    var name: String
+    var value: Value
+
+    public init(name: String, withValue value: Value) {
+        self.name = name
+        self.value = value
+    }
+
+    public var description: String {
+        return "\(name) = \(value)"
+    }
+}
+
+public class Variable: Identifier {
+    var constant: Bool
+
+    public init(name: String, withValue value: Value, isConstant constant: Bool) {
+        self.constant = constant
+        super.init(name: name, withValue: value)
+    }
+
+    public override var description: String {
+        return "\(super.description) \(constant ? "(constant)" : "")"
+    }
+}
+
+public struct Scope: CustomStringConvertible{
+    var variables: [Variable] = Array()
+    public init() {}
+
+    public var description: String {
+        var result = String()
+        for v in variables {
+            result += "\(v)"
+        }
+        return result
+    }
+}
+
+public struct Scopes: CustomStringConvertible {
+    var scopes: [Scope] = Array()
+
+    public init() {}
+
+    public mutating func enter() {
+        scopes.append(Scope())
+    }
+
+    public mutating func exit() {
+        let _ = scopes.popLast()
+    }
+
+    public var description: String {
+        var result = String()
+        for s in scopes {
+            result += "Scope: \(s)\n"
+        }
+
+        return result
+    }
+}
+
+public struct Program: CustomStringConvertible {
     public var parsers: [P4.Parser] = Array()
     public init() {}
+
+    public var description: String {
+        return "Program"
+    }
 }

Sources/P4/Runtime.swift

@@ -1,40 +1,41 @@
-public struct Error {
-    public private(set) var msg: String
+public class ProgramExecution: CustomStringConvertible {
+    public var scopes: Scopes = Scopes()
 
-    public init(withMessage msg: String) {
-        self.msg = msg
-    }
-}
-
-public enum Result: Equatable {
-    case Ok
-    case Error(Error)
-
-    public static func == (lhs: Result, rhs: Result) -> Bool {
-        switch (lhs, rhs) {
-        case (Ok, Ok):
-            return true
-        case (Error(let le), Error(let re)):
-            return le.msg == re.msg
-        default:
-            return false
-        }
-    }
-}
-
-public struct ParserRuntime {
     public init() {}
 
-    public func run(program: P4.Parser, input: P4.Packet) -> Result {
+    public var description: String {
+        return "Runtime:\nScopes: \(scopes)"
+    }
+}
 
+//public struct ParserRuntime: ProgramRuntime {
+public class ParserRuntime: CustomStringConvertible {
+    var execution: ParserExecution
+
+    init(execution: ParserExecution) {
+        self.execution = execution
+    }
+
+    public static func create(program: P4.Parser) -> Result<ParserRuntime> {
         // First, find the start state.
-        guard var start_state = program.findStartState() else {
+        guard let start_state = program.findStartState() else {
             return Result.Error(Error(withMessage: "Could not find the start state"))
         }
-        var execution = P4.ParserExecution(start_state)
+        return Result.Ok(P4.ParserRuntime(execution: P4.ParserExecution(start_state)))
+    }
+
+    public func run(input: P4.Packet) -> Result<Nothing> {
+        execution.scopes.enter()
+        print("Execution: \(execution)")
         while execution.state != P4.accept && execution.state != P4.reject {
             execution = execution.state.evaluate(execution: execution)
+            print("Execution: \(execution)")
         }
-        return Result.Ok
+        return .Ok(Nothing())
+    }
+
+    public var description: String {
+        //return "\(super.description)\nState: \(execution?.description ?? "N/A")\nError: \(error?.description ?? "None")"
+        return "Runtime:\nExecution: \(execution)"
     }
 }

Sources/P4/Support.swift

@@ -0,0 +1,55 @@
+public struct Error: Equatable {
+    public private(set) var msg: String
+
+    public init(withMessage msg: String) {
+        self.msg = msg
+    }
+}
+
+public struct Nothing: CustomStringConvertible {
+    public var description: String {
+        return "Nothing"
+    }
+
+    public init() {}
+}
+
+
+public enum Result<T>: Equatable, CustomStringConvertible {
+    case Ok(T)
+    case Error(Error)
+
+    public static func == (lhs: Result, rhs: Result) -> Bool {
+        switch (lhs, rhs) {
+        case (Ok, Ok):
+            return true
+        case (Error(let le), Error(let re)):
+            return le.msg == re.msg
+        default:
+            return false
+        }
+    }
+
+    public func error() -> Error? {
+        if case Result.Error(let e) = self {
+            return e
+        }
+        return nil
+    }
+
+    public var description: String {
+        switch self {
+            case Result.Error(let e):
+                return e.msg
+            case Result.Ok(let o):
+                return "\(o)"
+        }
+    }
+}
+
+@freestanding(expression) public macro RequireOkResult<T>(_: Result<T>) -> Bool =
+    #externalMacro(module: "P4Macros", type: "RequireResult")
+@freestanding(expression) public macro RequireErrorResult<T>(_: Error, _: Result<T>) -> Bool =
+    #externalMacro(module: "P4Macros", type: "RequireErrorResult")
+@freestanding(expression) public macro UseOkResult<T>(_: Result<T>) -> T =
+    #externalMacro(module: "P4Macros", type: "UseOkResult")

Sources/P4/Types.swift

@@ -1,12 +1,26 @@
 // The Swift Programming Language
 // https://docs.swift.org/swift-book
 
-public enum ValueType {
+public enum ValueType: CustomStringConvertible {
     case Boolean(Bool)
+
+    public var description: String {
+        switch self {
+            case ValueType.Boolean(let b):
+                return "\(b) of Boolean"
+        }
+    }
 }
 
-public struct Value {
+public struct Value: CustomStringConvertible {
     public var value_type: ValueType
+
+    public init(withValue value: ValueType) {
+        self.value_type = value
+    }
+    public var description: String {
+        return "\(value_type)"
+    }
 }
 
 public class Packet {

Sources/P4Macros/Macros.swift

@@ -0,0 +1,85 @@
+import SwiftCompilerPlugin
+import SwiftSyntax
+import SwiftSyntaxMacros
+
+public struct UseOkResult: ExpressionMacro {
+    public static func expansion(
+        of node: some FreestandingMacroExpansionSyntax,
+        in context: some MacroExpansionContext
+    ) throws -> ExprSyntax {
+
+        guard let argument = node.argumentList.first?.expression else {
+            throw Require.Error.SyntaxError
+        }
+
+        return """
+            {
+                if case Result.Ok(let __runtime) =  \(argument) {
+                    return __runtime
+                } else {
+                    print("Oh no")
+                    throw Require.Error.UnexpectedResult
+                }
+            }()
+            """
+    }
+}
+
+public struct Require {
+    public enum Error: Swift.Error {
+        case UnexpectedResult
+        case SyntaxError
+    }
+}
+
+public struct RequireResult: ExpressionMacro {
+    public static func expansion(
+        of node: some FreestandingMacroExpansionSyntax,
+        in context: some MacroExpansionContext
+    ) throws -> ExprSyntax {
+
+        guard let argument = node.argumentList.first?.expression else {
+            throw Require.Error.SyntaxError
+        }
+
+        return """
+            {
+                if case Result.Ok(_) =  \(argument) {
+                    true
+                } else {
+                    false
+                }
+            }()
+            """
+    }
+}
+
+public struct RequireErrorResult: ExpressionMacro {
+    public static func expansion(
+        of node: some FreestandingMacroExpansionSyntax,
+        in context: some MacroExpansionContext
+    ) throws -> ExprSyntax {
+
+        let arguments = node.argumentList.indices
+        let expected_error = node.argumentList[arguments.startIndex]
+        let error_producer = node.argumentList[arguments.index(after: arguments.startIndex)]
+
+        return """
+            {
+                if case Result.Error(\(expected_error)) = \(error_producer) {
+                    true
+                } else {
+                    false
+                }
+            }()
+            """
+    }
+}
+
+
+@main
+struct P4Macros: CompilerPlugin {
+    var providingMacros: [Macro.Type] = [
+        RequireResult.self, RequireErrorResult.self, UseOkResult.self,
+    ]
+}

Sources/Parser/Parser.swift

@@ -7,7 +7,6 @@ import TreeSitterP4
 
 extension MutableTree {
     public func isError(lang: Language) -> Bool {
-        // TODO: Make a function.
         guard
             let parser_error_query = try? SwiftTreeSitter.Query(
                 language: lang,
@@ -22,7 +21,6 @@ extension MutableTree {
         for _ in error_qr {
             return true
         }
-
         return false
     }
 }
@@ -30,28 +28,117 @@ extension MutableTree {
 let p4lang = Language(tree_sitter_p4())
 
 public protocol ParseableParserStatement {
-    static func Parse(node: Node, inTree tree: MutableTree) -> P4.ParserStatement?
+    static func Parse(node: Node, inTree tree: MutableTree) -> Result<P4.ParserStatement?>
 }
 
 extension P4.ExpressionStatement: ParseableParserStatement {
-    public static func Parse(node: Node, inTree tree: MutableTree) -> P4.ParserStatement? {
-        return P4.ExpressionStatement()
+    public static func Parse(node: Node, inTree tree: MutableTree) -> Result<P4.ParserStatement?> {
+        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(P4.ExpressionStatement())
+        }
+
+        return Result.Ok(.none)
+
+    }
+}
+
+extension P4.VariableDeclarationStatement: ParseableParserStatement {
+    public static func Parse(node: Node, inTree tree: MutableTree) -> Result<P4.ParserStatement?> {
+        guard
+            let parser_state_query = try? SwiftTreeSitter.Query(
+                language: p4lang,
+                data: String(
+                    "((annotations)? (typeRef) @type-name variable_name: (identifier) @identifier)"
+                ).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")
+
+        // There must be a state name and there must be a transition statement.
+        guard !type_name_capture.isEmpty,
+            !variable_name_capture.isEmpty,
+            let variable_name = variable_name_capture[0].node.text
+        else {
+            return Result.Error(Error(withMessage: "Could not parse a parser declaration"))
+        }
+
+        return Result.Ok(
+            // TODO: Add support for parsing the value.
+            P4.VariableDeclarationStatement(
+                withIdentifier: Identifier(
+                    name: variable_name, withValue: Value(withValue: ValueType.Boolean(true)))))
     }
 }
 
 public struct Parser {
-    static func ParserStatements(capture: [QueryCapture], inTree tree: MutableTree) -> [P4.ParserStatement]? {
+    static func ParserLocalElements(capture: [QueryCapture], inTree tree: MutableTree) -> Result<
+        [P4.ParserStatement]
+    > {
+        let localElementsParsers: [ParseableParserStatement.Type] = [
+            P4.VariableDeclarationStatement.self
+        ]
+
+        var localElements: [P4.ParserStatement] = Array()
+
+        for raw_le_statement in capture {
+            var parsed_le_statement: P4.ParserStatement? = .none
+
+            for le_parser in localElementsParsers {
+                if case Result.Ok(.some(let parsed)) = le_parser.Parse(node: raw_le_statement.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 ParserStatements(capture: [QueryCapture], inTree tree: MutableTree) -> Result<
+        [P4.ParserStatement]
+    > {
+        let statementParsers: [ParseableParserStatement.Type] = [
+            P4.ExpressionStatement.self, P4.VariableDeclarationStatement.self,
+        ]
+
         var statements: [P4.ParserStatement] = Array()
 
-        let statementParsers = [P4.ExpressionStatement.self]
-
         for raw_statement in capture {
-                var parsed_statement: Optional<P4.ParserStatement> = .none
+            var parsed_statement: P4.ParserStatement? = .none
 
             // Iterate through statement parsers and give each one a chance.
             for parser in statementParsers {
-                    if let parsed = parser.Parse(node: raw_statement.node, inTree: tree) {
+                if case Result.Ok(.some(let parsed)) = parser.Parse(node: raw_statement.node, inTree: tree) {
                     parsed_statement = parsed
+                    break
                 }
             }
 
@@ -59,11 +146,11 @@ public struct Parser {
                 statements.append(statement)
             } else {
                 // There were no parseable statements.
-                    return nil
+                return Result.Error(
+                    Error(withMessage: "Failed to parse a statement element: \(raw_statement)"))
             }
         }
-
-        return statements
+        return Result.Ok(statements)
     }
 
     static func ParserTransitionStatement(node: Node, inTree tree: MutableTree) -> P4
@@ -72,51 +159,67 @@ public struct Parser {
         return P4.ParserTransitionStatement()
     }
 
-    static func ParserState(node: Node, inTree tree: MutableTree) -> P4.ParserState? {
+    static func ParserState(node: Node, inTree tree: MutableTree) -> Result<P4.ParserState> {
         guard
             let parser_state_query = try? SwiftTreeSitter.Query(
                 language: p4lang,
                 data: String(
-                    "(parserState (state) (identifier) @state-name (parserStatements)? @state-statements (parserTransitionStatement) @transition)"
+                    "(parserState (state) (identifier) @state-name (parserLocalElements)? @state-local-elements (parserStatements)? @state-statements (parserTransitionStatement) @transition)"
                 ).data(using: String.Encoding.utf8)!)
         else {
-            return nil
+            return Result.Error(Error(withMessage: "Could not compile the tree sitter query"))
         }
 
         let qr = parser_state_query.execute(node: node, in: tree)
 
-        // TODO: Assert that there is only one value here.
-        for parser_declaration in qr {
+        let parser_declaration = qr.next()!
 
-
-            let transition_capture = parser_declaration.captures(
-                named: "transition")
+        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 = ParserTransitionStatement(
                 node: transition_capture[0].node, inTree: tree)
         else {
-                return nil
+            return Result.Error(Error(withMessage: "Could not parse a parser declaration"))
         }
 
-            let parsed_statements = if !statements_capture.isEmpty {
+        let maybe_parsed_les =
+            if !state_le_capture.isEmpty {
+                ParserLocalElements(capture: state_le_capture, inTree: tree)
+            } else {
+                Result.Ok([P4.ParserStatement]())
+            }
+
+        guard case Result<[P4.ParserStatement]>.Ok(let parsed_les) = maybe_parsed_les else {
+            return Result.Error(maybe_parsed_les.error()!)
+        }
+
+        let maybe_parsed_statements =
+            if !statements_capture.isEmpty {
                 ParserStatements(capture: statements_capture, inTree: tree)
             } else {
-                Optional<[P4.ParserStatement]>.none
+                Result.Ok([P4.ParserStatement]())
+            }
+        guard case Result<[P4.ParserStatement]>.Ok(let parsed_statements) = maybe_parsed_statements
+        else {
+            return Result.Error(maybe_parsed_statements.error()!)
         }
 
         // TODO: Validate that there is only one!
-            return P4.ParserState(name: parsed_state_name, withStatements: parsed_statements, withTransition: transition_statement)
+        return Result.Ok(
+            P4.ParserState(
+                name: parsed_state_name, withLocalElements: parsed_les,
+                withStatements: parsed_statements,
+                withTransition: transition_statement))
     }
 
-        return nil
-    }
-
-    static func Parser(node: Node, inTree tree: MutableTree) -> P4.Parser? {
+    static func Parser(node: Node, inTree tree: MutableTree) -> Result<P4.Parser> {
         guard
             let parser_state_query = try? SwiftTreeSitter.Query(
                 language: p4lang,
@@ -124,42 +227,39 @@ public struct Parser {
                     "(parserStates) @parser-states"
                 ).data(using: String.Encoding.utf8)!)
         else {
-            return nil
+            return Result.Error(
+                Error(withMessage: "Could not compile the parser state tree sitter query"))
         }
 
         var parser = P4.Parser()
 
-
         // Build a state from each one listed.
         for parser_states in parser_state_query.execute(node: node, in: tree) {
-            if let state = ParserState(node: parser_states.nodes[0], inTree: tree) {
-                parser.states.append(state)
+            switch ParserState(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)
+    }
 
-        return parser
-    }
-
-    public static func Program(_ source: String) -> P4.Program? {
+    public static func Program(_ source: String) -> Result<P4.Program> {
 
         let p = SwiftTreeSitter.Parser.init()
 
         do {
             try p.setLanguage(p4lang)
         } catch {
-            return nil
+            return Result.Error(Error(withMessage: "Could not configure the P4 parser"))
         }
 
-        // Parse and check whether it is valid.
         let result = p.parse(source)
         guard let tree = result,
             !tree.isError(lang: p4lang)
         else {
-
-            return nil
+            return Result.Error(Error(withMessage: "Could not compile the P4 program"))
         }
 
-        // Query for the parser declarations.
         guard
             let parser_declaration_query = try? SwiftTreeSitter.Query(
                 language: p4lang,
@@ -167,7 +267,8 @@ public struct Parser {
                     "(parserDeclaration (parserType) (parserStates) @parser-states)"
                 ).data(using: String.Encoding.utf8)!)
         else {
-            return nil
+            return Result.Error(
+                Error(withMessage: "Could not compile the parser declaration tree sitter query"))
         }
 
         var program: P4.Program = P4.Program()
@@ -175,13 +276,12 @@ public struct Parser {
         let parser_qc = parser_declaration_query.execute(in: tree)
 
         for parser_declaration in parser_qc {
-            if let parser = Parser(
-                node: parser_declaration.nodes[0], inTree: tree)
-            {
-                program.parsers.append(parser)
+            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 program
+        return Result.Ok(program)
     }
 }

Tests/p4lmTests/ParserTests.swift

@@ -5,6 +5,8 @@ import TreeSitterP4
 import Foundation
 import P4
 
+import P4Macros
+
 @testable import Parser
 
 @Test func test_simple_parser() async throws {
@@ -16,7 +18,7 @@ import P4
         }
         """
 
-    let program = try #require(Parser.Program(simple_parser_declaration))
+    let program = try #UseOkResult(Parser.Program(simple_parser_declaration))
 
     #expect(program.parsers.count == 1)
     #expect(program.parsers[0].states.count == 1)
@@ -32,7 +34,7 @@ import P4
            }
         }
         """
-    #expect(Parser.Program(simple_parser_declaration) == nil)
+    #expect(#RequireErrorResult(Error(withMessage: "Could not compile the P4 program"), Parser.Program(simple_parser_declaration)))
 }
 
 @Test func test_simple_parser_with_statement() async throws {
@@ -45,7 +47,7 @@ import P4
         }
         """
 
-    let program = try #require(Parser.Program(simple_parser_declaration))
+    let program = try #UseOkResult(Parser.Program(simple_parser_declaration))
 
     #expect(program.parsers.count == 1)
     #expect(program.parsers[0].states.count == 1)

Tests/p4lmTests/RuntimeTests.swift

@@ -1,5 +1,6 @@
 import Foundation
 import P4
+import P4Macros
 import SwiftTreeSitter
 import Testing
 import TreeSitter
@@ -17,11 +18,8 @@ import TreeSitterP4
         }
         """
 
-    let program = try #require(Parser.Program(simple_parser_declaration))
-
-    let runtime = P4.ParserRuntime()
-
-    #expect(runtime.run(program: program.parsers[0], input: P4.Packet()) == P4.Result.Ok)
+    let program = try #UseOkResult(Parser.Program(simple_parser_declaration))
+    #expect(#RequireOkResult(P4.ParserRuntime.create(program: program.parsers[0])))
 }
 
 @Test func test_simple_runtime_no_start_state() async throws {
@@ -34,10 +32,34 @@ import TreeSitterP4
         }
         """
 
-    let program = try #require(Parser.Program(simple_parser_declaration))
-
+    let program = try #UseOkResult(Parser.Program(simple_parser_declaration))
     #expect(
-        P4.ParserRuntime().run(program: program.parsers[0], input: P4.Packet())
-            == Result.Error(Error(withMessage: "Could not find the start state")))
-
+        #RequireErrorResult<ParserRuntime>(
+            Error(withMessage: "Could not find the start state"),
+            P4.ParserRuntime.create(program: program.parsers[0])))
+}
+
+@Test func test_simple_runtime_output() async throws {
+    let simple_parser_declaration = """
+        parser simple() {
+           state start {
+               bool b = true;
+               transition reject;
+           }
+        }
+        """
+
+    /*
+    TODO: Add tests for "semantic" parsing failures. Here's an example!
+    print(Parser.Program(simple_parser_declaration))
+    #expect(
+        #RequireErrorResult(
+            Error(
+                withMessage:
+                    "Failed to parse a local element: <capture 1 \"state-local-elements\": <parserLocalElements range: {42, 14} childCount: 2>>"
+            ), Parser.Program(simple_parser_declaration)))
+    */
+    let program = try #UseOkResult(Parser.Program(simple_parser_declaration))
+    let runtime = try #UseOkResult(P4.ParserRuntime.create(program: program.parsers[0]))
+    #expect(runtime.run(input: P4.Packet()) == P4.Result.Ok(Nothing()))
 }