Completely Refactor Execution

Signed-off-by: Will Hawkins <hawkinsw@obs.cr>
2026-03-06 21:40:19 -05:00
parent f96350f89d
commit eff19df968
15 changed files with 418 additions and 351 deletions
@@ -73,6 +73,13 @@ open class ProgramExecution: CustomStringConvertible {
    return new_pe
  }
  public func declare(identifier: Identifier, withValue value: P4Value) -> ProgramExecution {
    let new_pe = self
    let new_scopes = self.scopes.declare(identifier: identifier, withValue: value)
    new_pe.scopes = new_scopes
    return new_pe
  }
 }
 public typealias ValueScope = Scope<P4Value>
@@ -72,29 +72,6 @@ public class Variable: TypedIdentifier {
  }
 }
 /// A base for all instances of P4 types
 open class P4ValueBase<T: P4Type>: P4Value {
  public init() {}
  public func type() -> P4Type {
    return T.create()
  }
  public func eq(rhs: P4Value) -> Bool {
    return false
  }
  public var description: String {
    "Value of \(self.type()) type"
  }
 }
 extension P4ValueBase: EvaluatableExpression {
  public func evaluate(execution: ProgramExecution) -> Result<P4Value> {
    return .Ok(self)
  }
 }
 /// The type for a P4 struct
 public struct P4Struct: P4Type {
@@ -136,7 +113,19 @@ public struct P4StructField {
 }
 /// An instance of a P4 struct
-public class P4StructValue: P4ValueBase<P4Struct> {
+public class P4StructValue: P4Value {
  public func type() -> any P4Type {
    return P4Struct()
  }
  public func eq(rhs: any P4Value) -> Bool {
    return true
  }
  public var description: String {
    return "Struct"
  }
  public let fields: [P4StructField]
  public init(withFields fields: [P4StructField]) {
    self.fields = fields
@@ -161,20 +150,24 @@ public struct P4Boolean: P4Type {
 }
 /// An instance of a P4 boolean
-public class P4BooleanValue: P4ValueBase<P4Boolean> {
+public class P4BooleanValue: P4Value {
  public func type() -> any P4Type {
    return P4Boolean()
  }
  let value: Bool
  public init(withValue value: Bool) {
    self.value = value
  }
-  public override func eq(rhs: P4Value) -> Bool {
+  public func eq(rhs: P4Value) -> Bool {
    guard let bool_rhs = rhs as? P4BooleanValue else {
      return false
    }
    return self.value == bool_rhs.value
  }
-  public override var description: String {
+  public var description: String {
    "\(self.value ? "true" : "false") of \(self.type()) type"
  }
 }
@@ -196,18 +189,22 @@ public struct P4Int: P4Type {
 }
 /// An instance of a P4 integer
-public class P4IntValue: P4ValueBase<P4Int> {
+public class P4IntValue: P4Value {
  public func type() -> any P4Type {
    return P4Int()
  }
  let value: Int
  public init(withValue value: Int) {
    self.value = value
  }
-  public override func eq(rhs: P4Value) -> Bool {
+  public func eq(rhs: P4Value) -> Bool {
    guard let int_rhs = rhs as? P4IntValue else {
      return false
    }
    return self.value == int_rhs.value
  }
-  public override var description: String {
+  public var description: String {
    "\(self.value) of \(self.type()) type"
  }
 }
@@ -229,23 +226,28 @@ public struct P4String: P4Type {
  }
 }
 /// An instance of a P4 string
-public class P4StringValue: P4ValueBase<P4String> {
+public class P4StringValue: P4Value {
  public func type() -> any P4Type {
    return P4String()
  }
  let value: String
  public init(withValue value: String) {
    self.value = value
  }
-  public override func eq(rhs: P4Value) -> Bool {
+  public func eq(rhs: P4Value) -> Bool {
    guard let string_rhs = rhs as? P4StringValue else {
      return false
    }
    return self.value == string_rhs.value
  }
-  public override var description: String {
+  public var description: String {
    "\(self.value) of \(self.type()) type"
  }
 }
 public class Packet {
  public init() {}
 }
@@ -33,7 +33,6 @@ public protocol EvaluatableStatement {
 }
 public protocol P4Type: CustomStringConvertible {
  static func create() -> any P4Type
  func eq(rhs: any P4Type) -> Bool
 }
@@ -141,10 +141,10 @@ extension Result: CustomStringConvertible {
  #externalMacro(module: "Macros", type: "UseOkResult")
@freestanding(expression) public macro UseErrorResult<T>(_: Result<T>) -> Error =
  #externalMacro(module: "Macros", type: "UseErrorResult")
-@freestanding(codeItem) public macro RequireNodeType<N, T>(node: N, type: String, msg: String) =
+@freestanding(codeItem) public macro RequireNodeType<N, T>(node: N, type: String, nice_type_name: String) =
  #externalMacro(module: "Macros", type: "RequireNodeType")
@freestanding(codeItem) public macro RequireNodesType<N, T>(
-  nodes: N, type: [String], msg: [String]
+  nodes: N, type: [String], nice_type_names: [String]
 ) =
  #externalMacro(module: "Macros", type: "RequireNodesType")
@freestanding(codeItem) public macro SkipUnlessNodeType<N, T>(node: N, type: String) =
@@ -101,7 +101,7 @@ struct Expression {
    #RequireNodesType<Node, EvaluatableExpression>(
      nodes: node, type: ["expression", "keysetExpression"],
-      msg: ["expression", "keyset expression"])
+      nice_type_names: ["expression", "keyset expression"])
    // If the node is a keyset expression, then dig out the expression:
    let node =
@@ -152,3 +152,97 @@ struct Identifier {
    }
  }
 }
 extension SelectExpression: CompilableExpression {
  static func compile(
    node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes
  ) -> Result<EvaluatableExpression?> {
    #RequireNodeType<Node, (SelectExpression, LexicalScopes)>(
      node: node, type: "selectExpression", nice_type_name: "parser select expression")
    guard let selector_node = node.child(at: 2),
      selector_node.nodeType == "expression"
    else {
      return .Error(ErrorOnNode(node: node, withError: "Could not find selector expression"))
    }
    guard let select_body_node = node.child(at: 5),
      select_body_node.nodeType == "selectBody"
    else {
      return .Error(ErrorOnNode(node: node, withError: "Could not find select expression body"))
    }
    let maybe_selector = Expression.Compile(node: selector_node, inTree: tree, withScopes: scopes)
    guard case .Ok(let selector) = maybe_selector else {
      return .Error(
        Error(
          withMessage:
            "Could not parse transition select expression selector expression: \(maybe_selector.error()!)"
        ))
    }
    var kses: [KeysetExpression] = Array()
    var kses_errors: [Error] = Array()
    select_body_node.enumerateNamedChildren() { current_node in
      let maybe_parsed_kse = KeysetExpression.compile(node: current_node, inTree: tree, withScopes: scopes)
      if case .Ok(let parsed_kse) = maybe_parsed_kse {
        kses.append(parsed_kse as! KeysetExpression)
      } else {
        kses_errors.append(Error(withMessage: "\(maybe_parsed_kse.error()!)"))
      }
    }
    if !kses_errors.isEmpty {
      return .Error(
        Error(
          withMessage: "Error(s) parsing select cases: "
            + (kses_errors.map { error in
              return "\(error.msg)"
            }.joined(separator: ";\n"))))
    }
    return .Ok(
        SelectExpression(withSelector: selector, withKeysetExpressions: kses),
      )
  }
 }
 extension KeysetExpression: CompilableExpression {
  static func compile(
    node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes
  ) -> Result<EvaluatableExpression?> {
      if node.nodeType != "selectCase" {
        return Result.Error(Error(withMessage: "Expected select case not found"))
      }
      guard let keysetexpression_node = node.child(at: 0),
        keysetexpression_node.nodeType == "keysetExpression"
      else {
        return Result.Error(Error(withMessage: "Missing keyset expression in select case"))
      }
      guard let targetstate_node = node.child(at: 2),
        targetstate_node.nodeType == "identifier"
      else {
        return Result.Error(Error(withMessage: "Missing target state in select case"))
      }
      let maybe_parsed_keysetexpression = Expression.Compile(
        node: keysetexpression_node, inTree: tree, withScopes: scopes)
      guard case Result.Ok(let keysetexpression) = maybe_parsed_keysetexpression else {
        return Result.Error(maybe_parsed_keysetexpression.error()!)
      }
      let maybe_parsed_targetstate = Identifier.Compile(
        node: targetstate_node, inTree: tree, withScopes: scopes)
      guard case .Ok(let targetstate) = maybe_parsed_targetstate else {
        return Result.Error(maybe_parsed_targetstate.error()!)
      }
      return .Ok(
          KeysetExpression(
            withKey: keysetexpression, withNextState: targetstate) 
        )
    }
  }
@@ -28,7 +28,7 @@ extension ParserAssignmentStatement: CompilableStatement {
  ) -> Result<(EvaluatableStatement, LexicalScopes)> {
    #RequireNodeType<Node, (EvaluatableStatement, LexicalScopes)>(
-      node: node, type: "assignmentStatement", msg: "assignment statement")
+      node: node, type: "assignmentStatement", nice_type_name: "assignment statement")
    guard let lvalue_node = node.child(at: 0),
      lvalue_node.nodeType == "expression"
@@ -142,137 +142,26 @@ public struct Parser {
    }
  }
  public struct TransitionSelectExpressionCaseStatement {
    static func Compile(
      node: Node, inTree tree: MutableTree, withLexicalScopes scopes: LexicalScopes
    ) -> Result<(KeysetExpression, LexicalScopes)> {
      if node.nodeType != "selectCase" {
        return Result.Error(Error(withMessage: "Expected select case not found"))
      }
      guard let keysetexpression_node = node.child(at: 0),
        keysetexpression_node.nodeType == "keysetExpression"
      else {
        return Result.Error(Error(withMessage: "Missing keyset expression in select case"))
      }
      guard let targetstate_node = node.child(at: 2),
        targetstate_node.nodeType == "identifier"
      else {
        return Result.Error(Error(withMessage: "Missing target state in select case"))
      }
      let maybe_parsed_keysetexpression = Expression.Compile(
        node: keysetexpression_node, inTree: tree, withScopes: scopes)
      guard case Result.Ok(let keysetexpression) = maybe_parsed_keysetexpression else {
        return Result.Error(maybe_parsed_keysetexpression.error()!)
      }
      let maybe_parsed_targetstate = Identifier.Compile(
        node: targetstate_node, inTree: tree, withScopes: scopes)
      guard case .Ok(let targetstate) = maybe_parsed_targetstate else {
        return Result.Error(maybe_parsed_targetstate.error()!)
      }
      return .Ok(
        (
          KeysetExpression(
            withKey: keysetexpression, withNextState: targetstate), scopes
        ))
    }
  }
  public struct TransitionSelectExpression {
    static func Compile(
      node: Node, inTree tree: MutableTree, withScope scopes: LexicalScopes
    ) -> Result<(ParserTransitionSelectExpression, 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")
      if selector.isEmpty {
        return .Error(
          Error(withMessage: "Could not find transition select expression selector expression"))
      }
      let selector_node = selector[0].node
      let maybe_selector = Expression.Compile(node: selector_node, inTree: tree, withScopes: scopes)
      guard case .Ok(let selector) = maybe_selector else {
        return .Error(
          Error(
            withMessage:
              "Could not parse transition select expression selector expression: \(maybe_selector.error()!)"
          ))
      }
      if body.isEmpty {
        return .Error(Error(withMessage: "Could not find transition select expression body"))
      }
      let body_node = body[0].node
      var kses: [KeysetExpression] = Array()
      var kses_errors: [Error] = Array()
      body_node.enumerateNamedChildren { current_node in
        let maybe_parsed_kse = TransitionSelectExpressionCaseStatement.Compile(
          node: current_node, inTree: tree, withLexicalScopes: scopes)
        if case .Ok((let parsed_kse, _)) = maybe_parsed_kse {
          kses.append(parsed_kse)
        } else {
          kses_errors.append(Error(withMessage: "\(maybe_parsed_kse.error()!)"))
        }
      }
      if !kses_errors.isEmpty {
        return .Error(
          Error(
            withMessage: "Error(s) parsing select cases: "
              + (kses_errors.map { error in
                return "\(error.msg)"
              }.joined(separator: ";\n"))))
      }
      return .Ok(
        (
          ParserTransitionSelectExpression(withSelector: selector, withKeysetExpressions: kses),
          scopes
        ))
    }
  }
  public struct TransitionStatement {
    static func Compile(
      node: Node, inTree tree: MutableTree, withScope scopes: LexicalScopes
    ) -> Result<(ParserTransitionStatement, LexicalScopes)> {
-      guard
+
-        let next_state_query = try? SwiftTreeSitter.Query(
+      #RequireNodeType<Node, (EvaluatableStatement, LexicalScopes)>(node: node, type: "parserTransitionStatement", nice_type_name: "parser transition statement")
-          language: p4lang,
+
-          data: String(
+      guard let tse_node = node.child(at: 1),
-            "(parserTransitionStatement (transition) (transitionSelectionExpression (identifier) @next-state))"
+      tse_node.nodeType! == "transitionSelectionExpression" else {
-          ).data(using: String.Encoding.utf8)!)
+        return .Error(ErrorOnNode(node: node, withError: "Could not find transition select expression"))
      else {
        return Result.Error(Error(withMessage: "Could not compile the tree sitter query"))
      }
-      let qr = next_state_query.execute(node: node, in: tree)
+      guard let next_node = tse_node.child(at: 0) else {
        return .Error(ErrorOnNode(node: node, withError: "Could not find the next token in a transition selection expression"))
      }
-      if let next_state_result = qr.next() {
+      // If the next node is an identifier, we have the simple form ...
-        let transition_capture = next_state_result.captures(named: "next-state")
+      if next_node.nodeType == "identifier" {
        let maybe_parsed_next_state = Identifier.Compile(
-          node: transition_capture[0].node, inTree: tree, withScopes: scopes)
+          node: next_node, inTree: tree, withScopes: scopes)
        if case .Ok(let next_state) = maybe_parsed_next_state {
          return .Ok(
            (ParserTransitionStatement(withNextState: next_state), scopes))
@@ -285,11 +174,12 @@ public struct Parser {
        }
      }
      // We know that the next node is a select expression.
      return
-        switch TransitionSelectExpression.Compile(node: node, inTree: tree, withScope: scopes)
+        switch SelectExpression.compile(node: next_node, inTree: tree, withScopes: scopes)
      {
-      case .Ok((let tse, _)):
+      case .Ok(let tse):
-        .Ok((ParserTransitionStatement(withTransitionExpression: tse), scopes))
+        .Ok((ParserTransitionStatement(withTransitionExpression: tse! as! SelectExpression), scopes))
      case .Error(let e): .Error(e)
      }
    }
@@ -26,10 +26,7 @@ extension BlockStatement: CompilableStatement {
  public static func Compile(
    node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes
  ) -> Result<(EvaluatableStatement, LexicalScopes)> {
-    if node.nodeType != "blockStatement" {
+    #RequireNodeType<Node, (EvaluatableStatement, LexicalScopes)>(node: node, type: "blockStatement", nice_type_name: "block statement")
      return Result.Error(
        ErrorOnNode(node: node, withError: "Did not find expected block statement"))
    }
    var currentChildIdx = 0
    var currentChildIdxSafe = 1
@@ -94,12 +91,7 @@ extension ConditionalStatement: CompilableStatement {
    node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes
  ) -> Result<(EvaluatableStatement, LexicalScopes)> {
-    guard let node_type = node.nodeType,
+    #RequireNodeType<Node, (EvaluatableStatement, LexicalScopes)>(node: node, type: "conditionalStatement", nice_type_name: "conditional statement")
      node_type == "conditionalStatement"
    else {
      return Result.Error(
        ErrorOnNode(node: node, withError: "Did not find expected conditional statement"))
    }
    let maybe_condition_expression = node.child(at: 2)
    guard let condition_expression = maybe_condition_expression,
@@ -166,12 +158,7 @@ extension VariableDeclarationStatement: CompilableStatement {
    node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes
  ) -> Result<(EvaluatableStatement, LexicalScopes)> {
-    guard let node_type = node.nodeType,
+    #RequireNodeType<Node, (EvaluatableStatement, LexicalScopes)>(node: node, type: "variableDeclaration", nice_type_name: "variable declaration statement")
      node_type == "variableDeclaration"
    else {
      return Result.Error(
        ErrorOnNode(node: node, withError: "Did not find expected variable declaration statement"))
    }
    let maybe_typeref = node.child(at: 0)
    guard let typeref = maybe_typeref,
@@ -248,10 +235,7 @@ extension ExpressionStatement: CompilableStatement {
  public static func Compile(
    node: Node, inTree tree: MutableTree, withScopes scopes: LexicalScopes
  ) -> Result<(EvaluatableStatement, LexicalScopes)> {
-    if node.nodeType != "expressionStatement" {
+    #RequireNodeType<Node, (EvaluatableStatement, LexicalScopes)>(node: node, type: "expressionStatement", nice_type_name: "expression statement")
      return Result.Error(
        ErrorOnNode(node: node, withError: "Did not find expected expression statement"))
    }
    let _ = node.child(at: 0)
@@ -56,7 +56,7 @@ public struct KeysetExpression {
 }
-public struct ParserTransitionSelectExpression {
+public struct SelectExpression {
  public let selector: EvaluatableExpression
  public let keyset_expressions: [KeysetExpression]
@@ -67,24 +67,24 @@ public struct ParserTransitionSelectExpression {
    self.keyset_expressions = kses
  }
-  public func append_checked_kse(kse: KeysetExpression) -> ParserTransitionSelectExpression {
+  public func append_checked_kse(kse: KeysetExpression) -> SelectExpression {
    var new_kse = self.keyset_expressions
    new_kse.append(kse)
-    return ParserTransitionSelectExpression(
+    return SelectExpression(
      withSelector: self.selector, withKeysetExpressions: new_kse)
  }
 }
 public struct ParserTransitionStatement {
  public let next_state: Identifier?
-  public let transition_expression: ParserTransitionSelectExpression?
+  public let transition_expression: SelectExpression?
  public init() {
    self.next_state = .none
    self.transition_expression = .none
  }
-  public init(withTransitionExpression transition_expression: ParserTransitionSelectExpression) {
+  public init(withTransitionExpression transition_expression: SelectExpression) {
    self.next_state = .none
    self.transition_expression = transition_expression
  }
@@ -163,6 +163,22 @@ public class ParserState: Equatable, CustomStringConvertible, Comparable {
  }
 }
 /// A P4 parser state type
 public struct P4ParserState: P4Type {
  public static func create() -> any P4Type {
    return P4ParserState()
  }
  public var description: String {
    return "Parser State"
  }
  public func eq(rhs: any P4Type) -> Bool {
    return switch rhs {
    case is P4ParserState: true
    default: false
    }
  }
 }
 nonisolated(unsafe) public let accept: ParserState = ParserState(name: Identifier(name: "accept"))
 nonisolated(unsafe) public let reject: ParserState = ParserState(name: Identifier(name: "reject"))
@@ -0,0 +1,86 @@
 // 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 <https://www.gnu.org/licenses/>.
 import Common
 import P4Lang
 extension KeysetExpression: EvaluatableExpression {
  public func evaluate(execution: Common.ProgramExecution) -> Common.Result<any Common.P4Value> {
    return execution.scopes.lookup(identifier: next_state_identifier)
  }
  public func type() -> any Common.P4Type {
    return P4ParserState.create()
  }
 }
 extension SelectExpression: EvaluatableExpression {
  public func evaluate(execution: Common.ProgramExecution) -> Common.Result<any Common.P4Value> {
    switch self.selector.evaluate(execution: execution) {
    case .Ok(let selector_value):
      for kse in self.keyset_expressions {
        if case .Ok(let kse_key) = kse.key.evaluate(execution: execution),
          kse_key.eq(rhs: selector_value)
        {
          let result = kse.evaluate(execution: execution)
          return result
        }
      }
      return .Error(Error(withMessage: "No key matched the selector"))
    case .Error(let e): return .Error(e)
    }
  }
  public func type() -> any Common.P4Type {
    return P4ParserState.create()
  }
 }
 extension P4StringValue: EvaluatableExpression {
    public func evaluate(execution: Common.ProgramExecution) -> Common.Result<any Common.P4Value> {
      return .Ok(self)
    }
 }
 extension P4BooleanValue: EvaluatableExpression {
    public func evaluate(execution: Common.ProgramExecution) -> Common.Result<any Common.P4Value> {
      return .Ok(self)
    }
 }
 extension P4StructValue: EvaluatableExpression {
    public func evaluate(execution: Common.ProgramExecution) -> Common.Result<any Common.P4Value> {
      return .Ok(self)
    }
 }
 extension P4IntValue: EvaluatableExpression {
    public func evaluate(execution: Common.ProgramExecution) -> Common.Result<any Common.P4Value> {
      return .Ok(self)
    }
 }
 // Variables are evaluatable because they can be looked up by identifiers.
 extension TypedIdentifier: EvaluatableExpression {
  public func type() -> any Common.P4Type {
    return self.parsed_type
  }
  public func evaluate(execution: Common.ProgramExecution) -> Result<P4Value> {
    return execution.scopes.lookup(identifier: self)
  }
 }
@@ -20,8 +20,9 @@ import P4Lang
 extension ParserAssignmentStatement: EvaluatableStatement {
  public func evaluate(execution: ProgramExecution) -> ProgramExecution {
-    guard case Result.Ok(let value) = self.value.evaluate(execution: execution) else {
+    let result = self.value.evaluate(execution: execution)
-      return execution.setError(error: Error(withMessage: "AHHHHH"))
+    guard case Result.Ok(let value) = result else {
      return execution.setError(error: result.error()!)
    }
    let updated_scopes = execution.scopes.set(identifier: self.lvalue, withValue: value)
@@ -32,38 +33,82 @@ extension ParserAssignmentStatement: EvaluatableStatement {
 }
 public struct ParserStateDirectTransition: ParserStateInstance {
  public func type() -> any Common.P4Type {
    return P4ParserState.create()
  }
  public func eq(rhs: any Common.P4Value) -> Bool {
    switch rhs {
    case let state as ParserStateInstance: return currrent_state == state.state()
    default: return false
    }
  }
  public var description: String {
    get {
      return "Instance of \(currrent_state)"
    }
  }
  public let currrent_state: ParserState
-  public let next_state: ParserStateInstance
+  public let next_state_identifier: Identifier
  public func execute(
    program: Common.ProgramExecution
  ) -> (any ParserStateInstance, Common.ProgramExecution) {
-    var program = program.exit_scope()
+    var program = program.enter_scope()
    program = program.enter_scope()
    for statement in currrent_state.statements {
      program = statement.evaluate(execution: program)
    }
    let res = program.scopes.lookup(identifier: next_state_identifier)
-    return (self.next_state, program)
+    if case .Ok(let value) = res {
      if value.type().eq(rhs: P4ParserState.create()) {
        return (value as! ParserStateInstance, program.exit_scope())
      }
    }
    program = program.setError(error: res.error()!).exit_scope()
    return (self, program.exit_scope())
  }
  public func done() -> Bool {
    return false
  }
-  public func current() -> P4Lang.ParserState {
+  public func state() -> P4Lang.ParserState {
    return currrent_state
  }
 }
 public struct ParserStateNoTransition: ParserStateInstance {
  public func type() -> any Common.P4Type {
    return P4ParserState.create()
  }
  public func eq(rhs: any Common.P4Value) -> Bool {
    switch rhs {
    case let state as ParserStateInstance: return currrent_state == state.state()
    default: return false
    }
  }
  public var description: String {
    get {
      return "Instance of \(currrent_state)"
    }
  }
  public let currrent_state: ParserState
  public func execute(
    program: Common.ProgramExecution
  ) -> (any ParserStateInstance, Common.ProgramExecution) {
    let program = program.exit_scope()
    return (self, program)
  }
@@ -71,90 +116,83 @@ public struct ParserStateNoTransition: ParserStateInstance {
    return true
  }
-  public func current() -> P4Lang.ParserState {
+  public func state() -> P4Lang.ParserState {
    return currrent_state
  }
 }
 public struct ParserStateSelectTransition: ParserStateInstance {
  public func type() -> any Common.P4Type {
    return P4ParserState.create()
  }
  public func eq(rhs: any Common.P4Value) -> Bool {
    switch rhs {
    case let state as ParserStateInstance: return currrent_state == state.state()
    default: return false
    }
  }
  public var description: String {
    get {
      return "Instance of \(currrent_state)"
    }
  }
  public func execute(
    program: Common.ProgramExecution
  ) -> (any ParserStateInstance, Common.ProgramExecution) {
-    // Otherwise, we exit the scope from the previous state and enter a new one!
+    var program = program.enter_scope()
    var program = program.exit_scope()
    program = program.enter_scope()
    // First, evaluate the statements.
    for statement in currrent_state.statements {
      program = statement.evaluate(execution: program)
    }
-    switch self.selector.evaluate(execution: program) {
+    let res = self.selectExpression.evaluate(execution: program)
-    case .Ok(let selector_value):
+
-      for (key, target) in zip(self.keys, self.states) {
+    if case .Ok(let value) = res {
-        if case .Ok(let kse_key) = key.evaluate(execution: program),
+      if value.type().eq(rhs: P4ParserState.create()) {
-          kse_key.eq(rhs: selector_value)
+        return (value as! ParserStateInstance, program.exit_scope())
        {
          return (target, program)
        }
      }
      return (
        self, program.setError(error: Error(withMessage: "No selector key matched")).setDone()
      )
    case .Error(let e): return (self, program.setError(error: e))
    }
    program = program.setError(error: res.error()!).exit_scope()
    return (self, program.exit_scope())
  }
  public func done() -> Bool {
    return false
  }
-  public func current() -> P4Lang.ParserState {
+  public func state() -> P4Lang.ParserState {
    return currrent_state
  }
-  public let keys: [any EvaluatableExpression]
+  public let selectExpression: SelectExpression
  public let states: [ParserStateInstance]
  public let selector: any EvaluatableExpression
  public let currrent_state: ParserState
 }
 extension ParserState: Compilable {
-  public typealias ToCompile = (ParserState, [Identifier: ParserStateInstance])
+  public typealias ToCompile = ParserState
  public typealias Compiled = ParserStateInstance
-  public static func compile(_ parser: ToCompile) -> Result<Compiled> {
+  public static func compile(_ state: ToCompile) -> Result<Compiled> {
    let (state, current) = parser
    if state == accept || state == reject {
      return .Ok(ParserStateNoTransition(currrent_state: state))
    }
    if state.direct_transition(),
      let transition_statement = state.transition
    {
      return .Ok(
        ParserStateDirectTransition(
-          currrent_state: state, next_state: current[transition_statement.next_state!]!))
+          currrent_state: state, next_state_identifier: transition_statement.next_state!))
    }
    if let transition_select_statement = state.transition,
      let transition_select_expression = transition_select_statement.transition_expression
    {
      var keys: [any EvaluatableExpression] = Array()
      var states: [any ParserStateInstance] = Array()
      for kse in transition_select_expression.keyset_expressions {
        guard let next_state = current[kse.next_state_identifier] else {
          return .Error(
            Error(withMessage: "Cannot find \(kse.next_state_identifier) as transition target"))
        }
        keys.append(kse.key)
        states.append(next_state)
      }
      return .Ok(
        ParserStateSelectTransition(
-          keys: keys, states: states, selector: transition_select_expression.selector,
+          selectExpression: transition_select_expression, currrent_state: state))
          currrent_state: state))
    }
    return .Error(Error(withMessage: "Invalid parser state: No meaningful transition"))
@@ -163,24 +201,30 @@ extension ParserState: Compilable {
 extension ParserStates: Compilable {
  public typealias ToCompile = ParserStates
-  public typealias Compiled = ParserStateInstance
+  public typealias Compiled = (ParserStateInstance, [ParserStateInstance])
  public static func compile(_ parser: ToCompile) -> Result<Compiled> {
-    var compiled_states = [Identifier: ParserStateInstance]()
+    var compiled_states:[ParserStateInstance] = Array()
-    compiled_states[Identifier(name: "accept")] = ParserStateNoTransition(currrent_state: accept)
+    compiled_states.append(ParserStateNoTransition(currrent_state: accept))
-    compiled_states[Identifier(name: "reject")] = ParserStateNoTransition(currrent_state: reject)
+    compiled_states.append(ParserStateNoTransition(currrent_state: reject))
    var start_state: ParserStateInstance? = .none
    // TODO: We assume that states are in transition-order!
    for state in parser.states {
-      switch ParserState.compile((state, compiled_states)) {
+      switch ParserState.compile(state) {
-      case .Ok(let compiled): compiled_states[state.state] = compiled
+      case .Ok(let compiled): 
        if compiled.state().state == Identifier(name: "start") {
          start_state = compiled
        }
        compiled_states.append(compiled)
      case .Error(let e): return .Error(e)
      }
    }
    // Now, find the start state:
-    if let start_state = compiled_states[Identifier(name: "start")] {
+    if let start_state = start_state {
-      return .Ok(start_state)
+      return .Ok((start_state, compiled_states))
    } else {
      return .Error(Error(withMessage: "No start state defined"))
    }
@@ -189,14 +233,16 @@ extension ParserStates: Compilable {
 public class ParserInstance: ProgramExecution {
  let states: [ParserStateInstance]
  let start_state: ParserStateInstance
-  public init(_ _start_state: ParserStateInstance) {
+  public init(start: ParserStateInstance, states: [ParserStateInstance]) {
-    self.start_state = _start_state
+    start_state = start
    self.states = states
  }
  public override var description: String {
-    return "Execution: \(super.description)\nStart State: \(start_state)"
+    return "Execution: \(super.description)\nStates: \(states)"
  }
 }
@@ -206,7 +252,7 @@ extension ParserInstance: Compilable {
  public static func compile(_ parser: ToCompile) -> Result<Compiled> {
    return switch ParserStates.compile(parser.states) {
-    case .Ok(let start_state): Result.Ok(ParserInstance(start_state))
+    case .Ok(let (start_state, states)): Result.Ok(ParserInstance(start: start_state, states: states))
    case .Error(let e): Result.Error(e)
    }
  }
@@ -66,15 +66,4 @@ extension ExpressionStatement: EvaluatableStatement {
  public func evaluate(execution: ProgramExecution) -> ProgramExecution {
    return execution
  }
-}
+}
 // Variables are evaluatable because they can be looked up by identifiers.
 extension TypedIdentifier: EvaluatableExpression {
  public func type() -> any Common.P4Type {
    return self.parsed_type
  }
  public func evaluate(execution: Common.ProgramExecution) -> Result<P4Value> {
    return execution.scopes.lookup(identifier: self)
  }
 }
@@ -18,14 +18,6 @@
 import Common
 import P4Lang
 protocol EvaluatableParserTransition {
  func program(execution: ProgramExecution) -> (ParserState, ProgramExecution)
 }
 protocol EvaluatableParserTransitionStatement {
  func transition(execution: ProgramExecution) -> (ParserState, ProgramExecution)
 }
 public protocol Execution {
  func execute() -> (ParserState, ProgramExecution)
 }
@@ -36,10 +28,10 @@ public protocol Compilable {
  static func compile(_: ToCompile) -> Result<Compiled>
 }
-public protocol ParserStateInstance {
+public protocol ParserStateInstance: P4Value {
  func execute(program: ProgramExecution) -> (ParserStateInstance, ProgramExecution)
  func done() -> Bool
-  func current() -> ParserState
+  func state() -> ParserState
 }
 public protocol ParserExecution {
@@ -41,7 +41,11 @@ public class ParserRuntime: CustomStringConvertible {
  /// Run the P4 parser on a given packet
  public func run() -> Result<(ParserState, ProgramExecution)> {
-    return .Ok(parser.execute())
+    let (end_state, execution) = parser.execute()
    if let error = execution.getError() {
      return .Error(error)
    }
    return .Ok((end_state, execution))
  }
  public var description: String {
@@ -53,12 +57,19 @@ public class ParserRuntime: CustomStringConvertible {
 extension ParserInstance: ParserExecution {
  public func execute() -> (ParserState, ProgramExecution) {
    var execution = self as ProgramExecution
    execution = execution.enter_scope()
    // First, add every state to the scope!
    for state in self.states {
      execution = execution.declare(identifier: state.state().state, withValue: state)
    }
    var c = self.start_state
    // Evaluate until the state is either accept or reject.
    while !c.done() && !execution.hasError() {
      (c, execution) = c.execute(program: execution)
    }
-    return (c.current(), execution)
+    return (c.state(), execution)
  }
 }
@@ -142,17 +142,10 @@ import TreeSitterP4
    """
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, exec_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
  #expect(parser.states.count() == 1)
  #expect(state_result == P4Lang.reject)
  let x = try #UseOkResult(exec_result.scopes.lookup(identifier: Identifier(name: "x")))
  #expect(x.eq(rhs: P4BooleanValue(withValue: false)))
  let check = try #UseOkResult(exec_result.scopes.lookup(identifier: Identifier(name: "check")))
  #expect(check.eq(rhs: P4StringValue(withValue: "\"valid\"")))
 }
@Test func test_simple_parser_with_conditional_statement_and_else() async throws {
@@ -177,15 +170,29 @@ import TreeSitterP4
    """
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, exec_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
  #expect(parser.states.count() == 1)
  #expect(state_result == P4Lang.accept)
-  let x = try #UseOkResult(exec_result.scopes.lookup(identifier: Identifier(name: "x")))
+}
-  #expect(x.eq(rhs: P4BooleanValue(withValue: true)))
+
-  let check = try #UseOkResult(exec_result.scopes.lookup(identifier: Identifier(name: "check")))
+@Test func test_no_matching_key_transition() async throws {
-  #expect(check.eq(rhs: P4StringValue(withValue: "\"b\"")))
+  let simple_parser_declaration = """
      parser main_parser() {
        state start {
          transition select (false) {
            true: accept;
          };
        }
      };
    """
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
  #expect(
    #RequireErrorResult<(ParserState, ProgramExecution)>(
      Error(withMessage: "No key matched the selector"),
      runtime.run()))
 }
@@ -44,25 +44,9 @@ import TreeSitterP4
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, execution_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
  #expect(execution_result.scopes.count == 1)
  guard let scope = execution_result.scopes.current else {
    assert(false)
  }
  // We should be in the accept state.
  #expect(state_result == P4Lang.reject)
  // There are two variables declared.
  #expect(scope.count == 2)
  // Check the names/values of the variables in scope.
  let b = try #require(scope.lookup(identifier: Identifier(name: "b")))
  let s = try #require(scope.lookup(identifier: Identifier(name: "s")))
  #expect(b.eq(rhs: P4BooleanValue(withValue: false)))
  #expect(s.eq(rhs: P4StringValue(withValue: "\"testing\"")))
 }
@Test func test_simple_scope() async throws {
@@ -86,17 +70,10 @@ import TreeSitterP4
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, execution_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
  #expect(state_result == P4Lang.accept)
  #expect(execution_result.scopes.count == 1)
  let scope = try! #require(execution_result.scopes.current)
  #expect(scope.count == 2)
  let va = try #require(scope.lookup(identifier: Identifier(name: "va")))
  let where_to = try #require(scope.lookup(identifier: Identifier(name: "where_to")))
  #expect(where_to.eq(rhs: P4BooleanValue(withValue: false)))
  #expect(va.eq(rhs: P4IntValue(withValue: 5)))
 }
@Test func test_simple_scope2() async throws {
@@ -120,20 +97,10 @@ import TreeSitterP4
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, execution_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
  #expect(parser.states.count() == 2)
  #expect(state_result == P4Lang.reject)
  #expect(execution_result.scopes.count == 1)
  let scope = try! #require(execution_result.scopes.current)
  #expect(scope.count == 1)
  let where_to = try #require(scope.lookup(identifier: Identifier(name: "where_to")))
  #expect(where_to.eq(rhs: P4BooleanValue(withValue: false)))
 }
@Test func test_simple_assignment() async throws {
@@ -144,7 +111,7 @@ import TreeSitterP4
          string where_from = "here";
          where_to = false;
          where_from = "there";
-          transition select (true) {
+          transition select (where_to) {
            false: reject;
            true: accept;
          };
@@ -154,22 +121,11 @@ import TreeSitterP4
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, execution_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
-  #expect(parser.states.count() == 1)
+  #expect(state_result == P4Lang.reject)
  #expect(state_result == P4Lang.accept)
  #expect(execution_result.scopes.count == 1)
  let scope = try! #require(execution_result.scopes.current)
  #expect(scope.count == 2)
  let where_to = try #require(scope.lookup(identifier: Identifier(name: "where_to")))
  #expect(where_to.eq(rhs: P4BooleanValue(withValue: false)))
  let where_from = try #require(scope.lookup(identifier: Identifier(name: "where_from")))
  #expect(where_from.eq(rhs: P4StringValue(withValue: "\"there\"")))
 }
@Test func test_nested_declaration_assignment() async throws {
@@ -196,20 +152,8 @@ import TreeSitterP4
  let program = try #UseOkResult(Program.Compile(simple_parser_declaration))
  let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
  let runtime = try #UseOkResult(P4Runtime.ParserRuntime.create(program: program))
-  let (state_result, execution_result) = try! #UseOkResult(runtime.run())
+  let (state_result, _) = try! #UseOkResult(runtime.run())
  #expect(parser.states.count() == 1)
  #expect(state_result == P4Lang.reject)
  #expect(execution_result.scopes.count == 1)
  let scope = try! #require(execution_result.scopes.current)
  #expect(scope.count == 3)
  let where_to = try #require(scope.lookup(identifier: Identifier(name: "where_to")))
  #expect(where_to.eq(rhs: P4BooleanValue(withValue: false)))
  let where_from = try #require(scope.lookup(identifier: Identifier(name: "where_from")))
  #expect(where_from.eq(rhs: P4StringValue(withValue: "\"there\"")))
 }