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leon-repair [2015/02/09 14:58]
ekneuss
leon-repair [2015/02/10 17:14] (current)
ekneuss
Line 47: Line 47:
  
 The version of Leon used to run all these benchmarks is [[https://​github.com/​colder/​leon/​tree/​ddd08e3aac4cc52c51dc60b59867eaea38f3cbf5| publicly available on Github]]. The version of Leon used to run all these benchmarks is [[https://​github.com/​colder/​leon/​tree/​ddd08e3aac4cc52c51dc60b59867eaea38f3cbf5| publicly available on Github]].
 +
 +
 +The following output is produced by the tool:
 +
 + %%% Compiler1.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Plus(desugar(lhs),​ desugar(rhs))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def desugar(e : Trees.Expr):​ SimpleE = {
 +   e match {
 +     case Trees.Plus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ desugar(rhs))
 +     case Trees.Minus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ Neg(desugar(rhs)))
 +     case Trees.LessThan(lhs,​ rhs) =>
 +       LessThan(desugar(lhs),​ desugar(rhs))
 +     case Trees.And(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ desugar(rhs),​ Literal(0))
 +     case Trees.Or(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ Literal(1), desugar(rhs))
 +     case Trees.Not(e) =>
 +       Ite(desugar(e),​ Literal(0), Literal(1))
 +     case Trees.Eq(lhs,​ rhs) =>
 +       Eq(desugar(lhs),​ desugar(rhs))
 +     case Trees.Ite(cond,​ thn, els) =>
 +       Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 +     case Trees.IntLiteral(v) =>
 +       Literal(v)
 +     case Trees.BoolLiteral(b) =>
 +       Literal(b2i(b))
 +   }
 + } ensuring {
 +   (res : SimpleE) => (e, res) passes {
 +     case Trees.Plus(Trees.IntLiteral(i),​ Trees.Minus(Trees.IntLiteral(j),​ Trees.IntLiteral(42))) =>
 +       Plus(Literal(i),​ Plus(Literal(j),​ Neg(Literal(42))))
 +   } && sem(res) == semUntyped(e)
 + }
 +
 + %%% Compiler2.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Plus(None[SimpleE]().getOrElse(desugar(lhs)),​ Neg(desugar(rhs)))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def desugar(e : Trees.Expr):​ SimpleE = {
 +   e match {
 +     case Trees.Plus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ desugar(rhs))
 +     case Trees.Minus(lhs,​ rhs) =>
 +       Plus(None[SimpleE]().getOrElse(desugar(lhs)),​ Neg(desugar(rhs)))
 +     case Trees.LessThan(lhs,​ rhs) =>
 +       LessThan(desugar(lhs),​ desugar(rhs))
 +     case Trees.And(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ desugar(rhs),​ Literal(0))
 +     case Trees.Or(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ Literal(1), desugar(rhs))
 +     case Trees.Not(e) =>
 +       Ite(desugar(e),​ Literal(0), Literal(1))
 +     case Trees.Eq(lhs,​ rhs) =>
 +       Eq(desugar(lhs),​ desugar(rhs))
 +     case Trees.Ite(cond,​ thn, els) =>
 +       Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 +     case Trees.IntLiteral(v) =>
 +       Literal(v)
 +     case Trees.BoolLiteral(b) =>
 +       Literal(b2i(b))
 +   }
 + } ensuring {
 +   (res : SimpleE) => sem(res) == semUntyped(e) && (e, res) passes {
 +     case Trees.Minus(Trees.IntLiteral(42),​ Trees.IntLiteral(i)) =>
 +       Plus(Literal(42),​ Neg(Literal(i)))
 +   }
 + }
 +
 + %%% Compiler3.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def desugar(e : Trees.Expr):​ SimpleE = {
 +   e match {
 +     case Trees.Plus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ desugar(rhs))
 +     case Trees.Minus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ Neg(desugar(rhs)))
 +     case Trees.LessThan(lhs,​ rhs) =>
 +       LessThan(desugar(lhs),​ desugar(rhs))
 +     case Trees.And(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ desugar(rhs),​ Literal(0))
 +     case Trees.Or(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ Literal(1), desugar(rhs))
 +     case Trees.Not(e) =>
 +       Ite(desugar(e),​ Literal(0), Literal(1))
 +     case Trees.Eq(lhs,​ rhs) =>
 +       Eq(desugar(lhs),​ desugar(rhs))
 +     case Trees.Ite(cond,​ thn, els) =>
 +       Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 +     case Trees.IntLiteral(v) =>
 +       Literal(v)
 +     case Trees.BoolLiteral(b) =>
 +       Literal(b2i(b))
 +   }
 + } ensuring {
 +   (res : SimpleE) => sem(res) == semUntyped(e)
 + }
 +
 + %%% Compiler4.scala
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Ite(desugar(e),​ Literal(0), Literal(1))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def desugar(e : Trees.Expr):​ SimpleE = {
 +   e match {
 +     case Trees.Plus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ desugar(rhs))
 +     case Trees.Minus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ Neg(desugar(rhs)))
 +     case Trees.LessThan(lhs,​ rhs) =>
 +       LessThan(desugar(lhs),​ desugar(rhs))
 +     case Trees.And(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ desugar(rhs),​ Literal(0))
 +     case Trees.Or(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ Literal(1), desugar(rhs))
 +     case Trees.Not(e) =>
 +       Ite(desugar(e),​ Literal(0), Literal(1))
 +     case Trees.Eq(lhs,​ rhs) =>
 +       Eq(desugar(lhs),​ desugar(rhs))
 +     case Trees.Ite(cond,​ thn, els) =>
 +       Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 +     case Trees.IntLiteral(v) =>
 +       Literal(v)
 +     case Trees.BoolLiteral(b) =>
 +       Literal(b2i(b))
 +   }
 + } ensuring {
 +   (res : SimpleE) => sem(res) == semUntyped(e)
 + }
 +
 + %%% Compiler5.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + e match {
 +   case Plus(lhs, rhs) =>
 +     Plus(desugar(lhs),​ desugar(rhs))
 +   case Minus(lhs, rhs) =>
 +     Plus(desugar(lhs),​ Neg(desugar(rhs)))
 +   case LessThan(lhs,​ rhs) =>
 +     LessThan(desugar(lhs),​ desugar(rhs))
 +   case And(lhs, rhs) =>
 +     Ite(desugar(lhs),​ desugar(rhs),​ Literal(0))
 +   case Or(lhs, rhs) =>
 +     Ite(desugar(lhs),​ Literal(1), desugar(rhs))
 +   case Not(e) =>
 +     Ite(desugar(e),​ Literal(0), Literal(1))
 +   case Eq(lhs, rhs) =>
 +     Eq(desugar(lhs),​ desugar(rhs))
 +   case Ite(cond, thn, els) =>
 +     Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 +   case IntLiteral(v) =>
 +     Literal(v)
 +   case BoolLiteral(b) =>
 +     Literal(b2i(b))
 + }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def desugar(e : Trees.Expr):​ SimpleE = {
 +   e match {
 +     case Trees.Plus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ desugar(rhs))
 +     case Trees.Minus(lhs,​ rhs) =>
 +       Plus(desugar(lhs),​ Neg(desugar(rhs)))
 +     case Trees.LessThan(lhs,​ rhs) =>
 +       LessThan(desugar(lhs),​ desugar(rhs))
 +     case Trees.And(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ desugar(rhs),​ Literal(0))
 +     case Trees.Or(lhs,​ rhs) =>
 +       Ite(desugar(lhs),​ Literal(1), desugar(rhs))
 +     case Trees.Not(e) =>
 +       Ite(desugar(e),​ Literal(0), Literal(1))
 +     case Trees.Eq(lhs,​ rhs) =>
 +       Eq(desugar(lhs),​ desugar(rhs))
 +     case Trees.Ite(cond,​ thn, els) =>
 +       Ite(desugar(cond),​ desugar(thn),​ desugar(els))
 +     case Trees.IntLiteral(v) =>
 +       Literal(v)
 +     case Trees.BoolLiteral(b) =>
 +       Literal(b2i(b))
 +   }
 + } ensuring {
 +   (res : SimpleE) => sem(res) == semUntyped(e)
 + }
 +
 + %%% Compiler6.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + IntLiteral(a + b)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def simplify(e : Trees.Expr):​ Trees.Expr = {
 +   e match {
 +     case Trees.And(Trees.BoolLiteral(false),​ _) =>
 +       Trees.BoolLiteral(false)
 +     case Trees.Or(Trees.BoolLiteral(true),​ _) =>
 +       Trees.BoolLiteral(true)
 +     case Trees.Plus(Trees.IntLiteral(a),​ Trees.IntLiteral(b)) =>
 +       Trees.IntLiteral(a + b)
 +     case Trees.Not(Trees.Not(Trees.Not(a))) =>
 +       Trees.Not(a)
 +     case e =>
 +       e
 +   }
 + } ensuring {
 +   (res : Trees.Expr) => eval(res) == eval(e)
 + }
 +
 + %%% Compiler7.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + BoolLiteral(true)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + @induct
 + def simplify(e : Trees.Expr):​ Trees.Expr = {
 +   e match {
 +     case Trees.And(Trees.BoolLiteral(false),​ _) =>
 +       Trees.BoolLiteral(false)
 +     case Trees.Or(Trees.BoolLiteral(true),​ _) =>
 +       Trees.BoolLiteral(true)
 +     case Trees.Plus(Trees.IntLiteral(a),​ Trees.IntLiteral(b)) =>
 +       Trees.IntLiteral(a + b)
 +     case Trees.Not(Trees.Not(Trees.Not(a))) =>
 +       Trees.Not(a)
 +     case e =>
 +       e
 +   }
 + } ensuring {
 +   (res : Trees.Expr) => eval(res) == eval(e) && (e, res) passes {
 +     case Trees.Or(Trees.BoolLiteral(true),​ e) =>
 +       Trees.BoolLiteral(true)
 +   }
 + }
 +
 + %%% Heap1.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + v2 >= v1
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(h1 : Heap, h2 : Heap): Heap = {
 +   require(hasLeftistProperty(h1) && hasLeftistProperty(h2) && hasHeapProperty(h1) && hasHeapProperty(h2))
 +   (h1, h2) match {
 +     case (Leaf(), _) =>
 +       h2
 +     case (_, Leaf()) =>
 +       h1
 +     case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +       if (v2 >= v1) {
 +         makeN(v2, l2, merge(h1, r2))
 +       } else {
 +         makeN(v1, l1, merge(r1, h2))
 +       }
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(h1) + heapSize(h2) == heapSize(res) && h1.content() ++ h2.content() == res.content()
 + }
 +
 + %%% Heap2.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + h1
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(h1 : Heap, h2 : Heap): Heap = {
 +   require(hasLeftistProperty(h1) && hasLeftistProperty(h2) && hasHeapProperty(h1) && hasHeapProperty(h2))
 +   (h1, h2) match {
 +     case (Leaf(), _) =>
 +       h2
 +     case (_, Leaf()) =>
 +       h1
 +     case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +       if (v1 >= v2) {
 +         makeN(v1, l1, merge(r1, h2))
 +       } else {
 +         makeN(v2, l2, merge(h1, r2))
 +       }
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(h1) + heapSize(h2) == heapSize(res) && h1.content() ++ h2.content() == res.content()
 + }
 +
 + %%% Heap3.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + v2 <= v1
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(h1 : Heap, h2 : Heap): Heap = {
 +   require(hasLeftistProperty(h1) && hasLeftistProperty(h2) && hasHeapProperty(h1) && hasHeapProperty(h2))
 +   (h1, h2) match {
 +     case (Leaf(), _) =>
 +       h2
 +     case (_, Leaf()) =>
 +       h1
 +     case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +       if (v2 <= v1) {
 +         makeN(v1, l1, merge(r1, h2))
 +       } else {
 +         makeN(v2, l2, merge(h1, r2))
 +       }
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(h1) + heapSize(h2) == heapSize(res) && h1.content() ++ h2.content() == res.content()
 + }
 +
 + %%% Heap4.scala %%% 
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + makeN(v2, l2, merge(h1, r2))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(h1 : Heap, h2 : Heap): Heap = {
 +   require(hasLeftistProperty(h1) && hasLeftistProperty(h2) && hasHeapProperty(h1) && hasHeapProperty(h2))
 +   (h1, h2) match {
 +     case (Leaf(), _) =>
 +       h2
 +     case (_, Leaf()) =>
 +       h1
 +     case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +       if (v1 >= v2) {
 +         makeN(v1, l1, merge(r1, h2))
 +       } else {
 +         makeN(v2, l2, merge(h1, r2))
 +       }
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(h1) + heapSize(h2) == heapSize(res) && h1.content() ++ h2.content() == res.content()
 + }
 +
 + %%% Heap5.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + v1 + v2 > v2 + v2
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(h1 : Heap, h2 : Heap): Heap = {
 +   require(hasLeftistProperty(h1) && hasLeftistProperty(h2) && hasHeapProperty(h1) && hasHeapProperty(h2))
 +   (h1, h2) match {
 +     case (Leaf(), _) =>
 +       h2
 +     case (_, Leaf()) =>
 +       h1
 +     case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +       if (v1 + v2 > v2 + v2) {
 +         makeN(v1, l1, merge(r1, h2))
 +       } else {
 +         makeN(v2, l2, merge(h1, r2))
 +       }
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(h1) + heapSize(h2) == heapSize(res) && h1.content() ++ h2.content() == res.content()
 + }
 +
 + %%% Heap6.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + merge(Node(element,​ Leaf(), Leaf()), heap)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def insert(element : Int, heap : Heap): Heap = {
 +   require(hasLeftistProperty(heap) && hasHeapProperty(heap))
 +   merge(Node(element,​ Leaf(), Leaf()), heap)
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(res) == heapSize(heap) + 1 && res.content() == heap.content() ++ Set[Int](element)
 + }
 +
 + %%% Heap7.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + left.rank() >= right.rank()
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def makeN(value : Int, left : Heap, right : Heap): Heap = {
 +   require(hasLeftistProperty(left) && hasLeftistProperty(right))
 +   if (left.rank() >= right.rank()) {
 +     Node(value, left, right)
 +   } else {
 +     Node(value, right, left)
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res)
 + }
 +
 + Solution is not trusted!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + (h1, h2) match {
 +   case (Leaf(), _) =>
 +     h2
 +   case (_, Leaf()) =>
 +     h1
 +   case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +     if (v1 >= v2) {
 +       makeN(v1, l1, merge(r1, h2))
 +     } else {
 +       makeN(v2, merge(h1, r2), l2)
 +     }
 + }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(h1 : Heap, h2 : Heap): Heap = {
 +   require(hasLeftistProperty(h1) && hasLeftistProperty(h2) && hasHeapProperty(h1) && hasHeapProperty(h2))
 +   (h1, h2) match {
 +     case (Leaf(), _) =>
 +       h2
 +     case (_, Leaf()) =>
 +       h1
 +     case (Node(v1, l1, r1), Node(v2, l2, r2)) =>
 +       if (v1 >= v2) {
 +         makeN(v1, l1, merge(r1, h2))
 +       } else {
 +         makeN(v2, merge(h1, r2), l2)
 +       }
 +   }
 + } ensuring {
 +   (res : Heap) => hasLeftistProperty(res) && hasHeapProperty(res) && heapSize(h1) + heapSize(h2) == heapSize(res) && h1.content() ++ h2.content() == res.content()
 + }
 +
 + %%% PropLogic1.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + nnf(Not(e))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def nnf(formula : Formula): Formula = {
 +   formula match {
 +     case Not(And(lhs,​ rhs)) =>
 +       Or(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Or(lhs, rhs)) =>
 +       And(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Const(v)) =>
 +       Const(!v)
 +     case Not(Not(e)) =>
 +       nnf(Not(e))
 +     case And(lhs, rhs) =>
 +       And(nnf(lhs),​ nnf(rhs))
 +     case Or(lhs, rhs) =>
 +       Or(nnf(lhs),​ nnf(rhs))
 +     case other =>
 +       other
 +   }
 + } ensuring {
 +   (res : Formula) => isNNF(res) && (formula, res) passes {
 +     case Not(Not(Not(Const(a)))) =>
 +       Const(!a)
 +   }
 + }
 +
 + %%% PropLogic2.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + other match {
 +   case Const(v) =>
 +     Literal(1)
 +   case Literal(id) =>
 +     Const(false)
 +   case Not(f) =>
 +     nnf(f)
 + }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def nnf(formula : Formula): Formula = {
 +   formula match {
 +     case Not(And(lhs,​ rhs)) =>
 +       Or(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Or(lhs, rhs)) =>
 +       And(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Const(v)) =>
 +       Const(!v)
 +     case And(lhs, rhs) =>
 +       And(nnf(lhs),​ nnf(rhs))
 +     case Or(lhs, rhs) =>
 +       Or(nnf(lhs),​ nnf(rhs))
 +     case other =>
 +       other match {
 +         case Const(v) =>
 +           Literal(1)
 +         case Literal(id) =>
 +           Const(false)
 +         case Not(f) =>
 +           nnf(f)
 +       }
 +   }
 + } ensuring {
 +   (res : Formula) => isNNF(res) && (formula, res) passes {
 +     case Not(Not(Not(Const(a)))) =>
 +       Const(!a)
 +   }
 + }
 +
 + %%% PropLogic3.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Const(false == v)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def nnf(formula : Formula): Formula = {
 +   formula match {
 +     case Not(And(lhs,​ rhs)) =>
 +       Or(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Or(lhs, rhs)) =>
 +       And(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Const(v)) =>
 +       Const(false == v)
 +     case Not(Not(e)) =>
 +       nnf(e)
 +     case And(lhs, rhs) =>
 +       And(nnf(lhs),​ nnf(rhs))
 +     case Or(lhs, rhs) =>
 +       Or(nnf(lhs),​ nnf(rhs))
 +     case other =>
 +       other
 +   }
 + } ensuring {
 +   (res : Formula) => isNNF(res) && (formula, res) passes {
 +     case Not(Const(true)) =>
 +       Const(false)
 +     case Not(Const(false)) =>
 +       Const(true)
 +   }
 + }
 +
 + %%% PropLogic4.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Or(nnf(lhs),​ nnf(rhs))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def nnf(formula : Formula): Formula = {
 +   formula match {
 +     case Not(And(lhs,​ rhs)) =>
 +       Or(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Or(lhs, rhs)) =>
 +       And(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Const(v)) =>
 +       Const(!v)
 +     case Not(Not(e)) =>
 +       nnf(e)
 +     case And(lhs, rhs) =>
 +       And(nnf(lhs),​ nnf(rhs))
 +     case Or(lhs, rhs) =>
 +       Or(nnf(lhs),​ nnf(rhs))
 +     case other =>
 +       other
 +   }
 + } ensuring {
 +   (res : Formula) => isNNF(res) && (formula, res) passes {
 +     case Or(Not(Const(c)),​ Not(Literal(l))) =>
 +       Or(Const(!c),​ Not(Literal(l)))
 +   }
 + }
 +
 + %%% PropLogic5.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Or(nnf(lhs),​ nnf(rhs))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def nnf(formula : Formula): Formula = {
 +   formula match {
 +     case Not(And(lhs,​ rhs)) =>
 +       Or(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Or(lhs, rhs)) =>
 +       And(nnf(Not(lhs)),​ nnf(Not(rhs)))
 +     case Not(Const(v)) =>
 +       Const(!v)
 +     case Not(Not(e)) =>
 +       nnf(e)
 +     case And(lhs, rhs) =>
 +       And(nnf(lhs),​ nnf(rhs))
 +     case Or(lhs, rhs) =>
 +       Or(nnf(lhs),​ nnf(rhs))
 +     case other =>
 +       other
 +   }
 + } ensuring {
 +   (res : Formula) => isNNF(res) && (formula, res) passes {
 +     case Or(Not(Const(c)),​ Not(Literal(l))) =>
 +       Or(Const(!c),​ Not(Literal(l)))
 +   }
 + }
 +
 + %%% List1.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Cons0[T](h,​ t.pad(s, e))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$pad[T]($this : List0[T], s : Int, e : T): List0[T] = {
 +   ($this, s) match {
 +     case (_, s) if s <= 0 =>
 +       $this
 +     case (Nil0(), s) =>
 +       Cons0[T](e, Nil0[T]().pad(s - 1, e))
 +     case (Cons0(h, t), s) =>
 +       Cons0[T](h, t.pad(s, e))
 +   }
 + } ensuring {
 +   (res : List0[T]) => (($this, s, e), res) passes {
 +     case (Cons0(a, Nil0()), 2, x) =>
 +       Cons0[T](a, Cons0[T](x, Cons0[T](x, Nil0[T]())))
 +   }
 + }
 +
 + %%% List2.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Cons0[T](x,​ xs ++ that)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$$plus$plus[T]($this : List0[T], that : List0[T]): List0[T] = {
 +   $this match {
 +     case Nil0() =>
 +       that
 +     case Cons0(x, xs) =>
 +       Cons0[T](x, xs ++ that)
 +   }
 + } ensuring {
 +   (res : List0[T]) => res.content() == $this.content() ++ that.content() && res.size() == $this.size() + that.size()
 + }
 +
 + %%% List3.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Cons0[T](t,​ Nil0[T]())
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$ap[T]($this : List0[T], t : T): List0[T] = {
 +   $this match {
 +     case Nil0() =>
 +       Cons0[T](t, Nil0[T]())
 +     case Cons0(x, xs) =>
 +       Cons0[T](x, xs.ap(t))
 +   }
 + } ensuring {
 +   (res : List0[T]) => res.size() == $this.size() + 1 && res.content() == $this.content() ++ Set[T](t)
 + }
 +
 + %%% List4.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + if (h == from) {
 +   Cons0[T](to,​ t.replace(h,​ to))
 + } else {
 +   Cons0[T](h, r)
 + }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$replace[T]($this : List0[T], from : T, to : T): List0[T] = {
 +   $this match {
 +     case Nil0() =>
 +       Nil0[T]()
 +     case Cons0(h, t) =>
 +       val r = t.replace(from,​ to);
 +       if (h == from) {
 +         Cons0[T](to,​ t.replace(h,​ to))
 +       } else {
 +         Cons0[T](h, r)
 +       }
 +   }
 + } ensuring {
 +   (res : List0[T]) => $this.content() -- Set[T](from) ++ (if ($this.content().contains(e)) {
 +     Set[T](to)
 +   } else {
 +     Set[T]()
 +   }) == res.content() && res.size() == $this.size()
 + }
 +
 + %%% List5.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + t.count(h) + 1
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$count[T]($this : List0[T], e : T): Int = {
 +   $this match {
 +     case Cons0(h, t) =>
 +       if (h == e) {
 +         t.count(h) + 1
 +       } else {
 +         t.count(e)
 +       }
 +     case Nil0() =>
 +       0
 +   }
 + } ensuring {
 +   (x$2 : Int) => (($this, e), x$2) passes {
 +     case (Cons0(a, Cons0(b, Cons0(a1, Cons0(b2, Nil0())))), a2) if a == a1 && a == a2 && b != a2 && b2 != a2 =>
 +       2
 +     case (Cons0(a, Cons0(b, Nil0())), c) if a != c && b != c =>
 +       0
 +   }
 + }
 +
 + %%% List6.scala %%%
 + Solution is not trusted!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Some[Int](i + 1)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$find[T]($this : List0[T], e : T): Option[Int] = {
 +   $this match {
 +     case Nil0() =>
 +       None[Int]()
 +     case Cons0(h, t) =>
 +       if (h == e) {
 +         Some[Int](0)
 +       } else {
 +         t.find(e) match {
 +           case None() =>
 +             None[Int]()
 +           case Some(i) =>
 +             Some[Int](i + 1)
 +         }
 +       }
 +   }
 + } ensuring {
 +   (res : Option[Int]) => if ($this.content().contains(e)) {
 +     res.isDefined() && $this.size() > res.get() && $this.apply(res.get()) == e
 +   } else {
 +     res.isEmpty()
 +   }
 + }
 +
 + %%% List7.scala %%%
 + Solution is not trusted!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Some[Int]((i + 2) - 1)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$find[T]($this : List0[T], e : T): Option[Int] = {
 +   $this match {
 +     case Nil0() =>
 +       None[Int]()
 +     case Cons0(h, t) =>
 +       if (h == e) {
 +         Some[Int](0)
 +       } else {
 +         t.find(e) match {
 +           case None() =>
 +             None[Int]()
 +           case Some(i) =>
 +             Some[Int]((i + 2) - 1)
 +         }
 +       }
 +   }
 + } ensuring {
 +   (res : Option[Int]) => if ($this.content().contains(e)) {
 +     res.isDefined() && $this.size() > res.get() && $this.apply(res.get()) == e
 +   } else {
 +     res.isEmpty()
 +   }
 + }
 +
 + %%% List8.scala %%%
 + Solution is not trusted!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + if (e == h) {
 +   Some[Int](0)
 + } else {
 +   t.find(e) match {
 +     case None() =>
 +       None[Int]()
 +     case Some(i) =>
 +       Some[Int](i + 1)
 +   }
 + }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$find[T]($this : List0[T], e : T): Option[Int] = {
 +   $this match {
 +     case Nil0() =>
 +       None[Int]()
 +     case Cons0(h, t) =>
 +       if (e == h) {
 +         Some[Int](0)
 +       } else {
 +         t.find(e) match {
 +           case None() =>
 +             None[Int]()
 +           case Some(i) =>
 +             Some[Int](i + 1)
 +         }
 +       }
 +   }
 + } ensuring {
 +   (res : Option[Int]) => if ($this.content().contains(e)) {
 +     res.isDefined() && $this.size() > res.get() && $this.apply(res.get()) == e
 +   } else {
 +     res.isEmpty()
 +   }
 + }
 +
 + %%% List9.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + 1 + t.size()
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$size[T]($this : List0[T]): Int = {
 +   $this match {
 +     case Nil0() =>
 +       0
 +     case Cons0(h, t) =>
 +       1 + t.size()
 +   }
 + } ensuring {
 +   (x$1 : Int) => ($this, x$1) passes {
 +     case Cons0(_, Nil0()) =>
 +       1
 +     case Nil0() =>
 +       0
 +   }
 + }
 +
 + %%% List10.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + h + sum(t)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def sum(l : List0[Int]):​ Int = {
 +   l match {
 +     case Nil0() =>
 +       0
 +     case Cons0(h, t) =>
 +       h + sum(t)
 +   }
 + } ensuring {
 +   (x$2 : Int) => (l, x$2) passes {
 +     case Cons0(a, Nil0()) =>
 +       a
 +     case Cons0(a, Cons0(b, Nil0())) =>
 +       a + b
 +   }
 + }
 +
 + %%% List11.scala %%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + t - e
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$$minus[T]($this : List0[T], e : T): List0[T] = {
 +   $this match {
 +     case Cons0(h, t) =>
 +       if (e == h) {
 +         t - e
 +       } else {
 +         Cons0[T](h, t - e)
 +       }
 +     case Nil0() =>
 +       Nil0[T]()
 +   }
 + } ensuring {
 +   (res : List0[T]) => res.content() == $this.content() -- Set[T](e)
 + }
 +
 + %%% List12.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + val scrut = ($this, i);
 +   scrut match {
 +     case (Nil0(), _) =>
 +       Nil0[T]()
 +     case (Cons0(h, t), 0) =>
 +       scrut._1
 +     case (Cons0(_, t), i) =>
 +       t.drop(2)
 +   }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def List0$drop[T]($this : List0[T], i : Int): List0[T] = {
 +   val scrut = ($this, i);
 +   scrut match {
 +     case (Nil0(), _) =>
 +       Nil0[T]()
 +     case (Cons0(h, t), 0) =>
 +       scrut._1
 +     case (Cons0(_, t), i) =>
 +       t.drop(2)
 +   }
 + } ensuring {
 +   (res : List0[T]) => (($this, i), res) passes {
 +     case (Cons0(_, Nil0()), 42) =>
 +       Nil0[T]()
 +     case (l @ Cons0(_, _), 0) =>
 +       l
 +     case (Cons0(a, Cons0(b, Nil0())), 1) =>
 +       Cons0[T](b, Nil0[T]())
 +     case (Cons0(a, Cons0(b, Cons0(c, Nil0()))), 2) =>
 +       Cons0[T](c, Nil0[T]())
 +   }
 + }
 +
 + %%% Numerical1.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + power(base,​ p - 1) * base
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def power(base : Int, p : Int): Int = {
 +   require(p >= 0)
 +   if (p == 0) {
 +     1
 +   } else {
 +     if (p % 2 == 0) {
 +       power(base * base, p / 2)
 +     } else {
 +       power(base, p - 1) * base
 +     }
 +   }
 + } ensuring {
 +   (res : Int) => ((base, p), res) passes {
 +     case (_, 0) =>
 +       1
 +     case (b, 1) =>
 +       b
 +     case (2, 7) =>
 +       128
 +     case (2, 10) =>
 +       1024
 +   }
 + }
 +
 + %%% Numerical2.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + (a, 0)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def moddiv(a : Int, b : Int): (Int, Int) = {
 +   require(a >= 0 && b > 0)
 +   if (b > a) {
 +     (a, 0)
 +   } else {
 +     {val x$1 = {
 +       moddiv(a - b, b) match {
 +         case (r1, r2) =>
 +           (r1, r2)
 +       }
 +     }
 +     val r1 = {
 +       x$1._1
 +     }
 +     val r2 = x$1._2;
 +     (r1, (r2 + 1))}
 +   }
 + } ensuring {
 +   (res : (Int, Int)) => b * res._2 + res._1 == a
 + }
 +
 + %%% MergeSort1.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + (Cons(b, rec1), Cons(a, rec2))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def split(l : List): (List, List) = {
 +   l match {
 +     case Cons(a, Cons(b, t)) =>
 +       val x$1 = {
 +         split(t) match {
 +           case (rec1, rec2) =>
 +             (rec1, rec2)
 +         }
 +       }
 +       val rec1 = {
 +         x$1._1
 +       }
 +       val rec2 = x$1._2;
 +       (Cons(b, rec1), Cons(a, rec2))
 +     case other =>
 +       (other, Nil())
 +   }
 + } ensuring {
 +   (res : (List, List)) => val x$2 = {
 +     res match {
 +       case (l1, l2) =>
 +         (l1, l2)
 +     }
 +   }
 +   val l1 = {
 +     x$2._1
 +   }
 +   val l2 = x$2._2;
 +   l1.size() >= l2.size() && l1.size() <= l2.size() + 1 && l1.size() + l2.size() == l.size() && l1.content() ++ l2.content() == l.content()
 + }
 +
 + %%% MergeSort2.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + Cons[Int](h2,​ merge(l1, t2))
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(l1 : List[Int], l2 : List[Int]): List[Int] = {
 +   require(isSorted(l1) && isSorted(l2))
 +   (l1, l2) match {
 +     case (Cons(h1, t1), Cons(h2, t2)) =>
 +       if (h1 <= h2) {
 +         Cons[Int](h1,​ merge(t1, l2))
 +       } else {
 +         Cons[Int](h2,​ merge(l1, t2))
 +       }
 +     case (Nil(), _) =>
 +       l2
 +     case (_, Nil()) =>
 +       l1
 +   }
 + } ensuring {
 +   (res : List[Int]) => isSorted(res) && res.size() == l1.size() + l2.size() && res.content() == l1.content() ++ l2.content()
 + }
 +
 + %%% MergeSort3.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + h2 >= h1
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(l1 : List[Int], l2 : List[Int]): List[Int] = {
 +   require(isSorted(l1) && isSorted(l2))
 +   (l1, l2) match {
 +     case (Cons(h1, t1), Cons(h2, t2)) =>
 +       if (h2 >= h1) {
 +         Cons[Int](h1,​ merge(t1, l2))
 +       } else {
 +         Cons[Int](h2,​ merge(l1, t2))
 +       }
 +     case (Nil(), _) =>
 +       l2
 +     case (_, Nil()) =>
 +       l1
 +   }
 + } ensuring {
 +   (res : List[Int]) => isSorted(res) && res.size() == l1.size() + l2.size() && res.content() == l1.content() ++ l2.content()
 + }
 +
 + %%% MergeSort4.scala %%%
 + Found trusted solution!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + h2 :: merge(l1, t2)
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(l1 : List[Int], l2 : List[Int]): List[Int] = {
 +   require(isSorted(l1) && isSorted(l2))
 +   (l1, l2) match {
 +     case (Cons(h1, t1), Cons(h2, t2)) =>
 +       if (h1 <= h2) {
 +         Cons[Int](h1,​ merge(t1, l2))
 +       } else {
 +         h2 :: merge(l1, t2)
 +       }
 +     case (Nil(), _) =>
 +       l2
 +     case (_, Nil()) =>
 +       l1
 +   }
 + } ensuring {
 +   (res : List[Int]) => isSorted(res) && res.size() == l1.size() + l2.size() && res.content() == l1.content() ++ l2.content()
 + }
 +
 + %%% MergeSort5.scala %%%
 + Solution is not trusted!
 + ============================== Repair successful: ==============================
 + --------------------------------- Solution 1: ---------------------------------
 + (l1, l2) match {
 +   case (Nil(), _) =>
 +     l2
 +   case (_, Nil()) =>
 +     l1
 +   case (Cons(h1, t1), Cons(h2, t2)) =>
 +     if (h1 <= h2) {
 +       Cons[Int](h1,​ merge(t1, l2))
 +     } else {
 +       Cons[Int](h2,​ merge(l1, t2))
 +     }
 + }
 + ================================= In context: =================================
 + --------------------------------- Solution 1: ---------------------------------
 + def merge(l1 : List[Int], l2 : List[Int]): List[Int] = {
 +   require(isSorted(l1) && isSorted(l2))
 +   (l1, l2) match {
 +     case (Nil(), _) =>
 +       l2
 +     case (_, Nil()) =>
 +       l1
 +     case (Cons(h1, t1), Cons(h2, t2)) =>
 +       if (h1 <= h2) {
 +         Cons[Int](h1,​ merge(t1, l2))
 +       } else {
 +         Cons[Int](h2,​ merge(l1, t2))
 +       }
 +   }
 + } ensuring {
 +   (res : List[Int]) => isSorted(res) && res.size() == l1.size() + l2.size() && res.content() == l1.content() ++ l2.content()
 + }