- : unit = ()
- : unit = ()
h : heuristic = <heuristic>
- : unit = ()
APPLY CRITERIA (Marked dependency pairs)

TRS termination of:
[1] fact(X) -> if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X))))
[2] add(0,X) -> X
[3] add(s(X),Y) -> s(add(X,Y))
[4] prod(0,X) -> 0
[5] prod(s(X),Y) -> add(Y,prod(X,Y))
[6] if(true,X,Y) -> activate(X)
[7] if(false,X,Y) -> activate(Y)
[8] zero(0) -> true
[9] zero(s(X)) -> false
[10] p(s(X)) -> X
[11] s(X) -> n__s(X)
[12] 0 -> n__0
[13] prod(X1,X2) -> n__prod(X1,X2)
[14] fact(X) -> n__fact(X)
[15] p(X) -> n__p(X)
[16] activate(n__s(X)) -> s(activate(X))
[17] activate(n__0) -> 0
[18] activate(n__prod(X1,X2)) -> prod(activate(X1),activate(X2))
[19] activate(n__fact(X)) -> fact(activate(X))
[20] activate(n__p(X)) -> p(activate(X))
[21] activate(X) -> X


Sub problem: 
guided: 

DP termination of:
<Marked_fact(X) , Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X))))>
<Marked_fact(X) , Marked_zero(X)>
<Marked_add(s(X),Y) , Marked_s(add(X,Y))>
<Marked_add(s(X),Y) , Marked_add(X,Y)>
<Marked_prod(s(X),Y) , Marked_add(Y,prod(X,Y))>
<Marked_prod(s(X),Y) , Marked_prod(X,Y)>
<Marked_if(true,X,Y) , Marked_activate(X)>
<Marked_if(false,X,Y) , Marked_activate(Y)>
<Marked_activate(n__s(X)) , Marked_s(activate(X))>
<Marked_activate(n__s(X)) , Marked_activate(X)>
<Marked_activate(n__0) , Marked_0>
<Marked_activate(n__prod(X1,X2)) , Marked_prod(activate(X1),activate(X2))>
<Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
<Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
<Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
<Marked_activate(n__fact(X)) , Marked_activate(X)>
<Marked_activate(n__p(X)) , Marked_p(activate(X))>
<Marked_activate(n__p(X)) , Marked_activate(X)>
 
END GUIDED
APPLY CRITERIA (Graph splitting)
Found 3 components:

{  <Marked_activate(n__p(X)) , Marked_activate(X)> 
      --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_activate(n__p(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_activate(n__p(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_activate(n__p(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_activate(n__p(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_activate(n__p(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_activate(n__fact(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_activate(n__fact(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_activate(n__fact(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_activate(n__fact(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_activate(n__fact(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_activate(n__fact(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_activate(n__fact(X)) , Marked_fact(activate(X))> 
     --> <Marked_fact(X) , Marked_if(zero(X),n__s(n__0),
                            n__prod(X,n__fact(n__p(X))))>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)> 
     --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)> 
     --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_activate(n__s(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_activate(n__s(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_activate(n__s(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_activate(n__s(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_activate(n__s(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_activate(n__s(X)) , Marked_activate(X)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_if(false,X,Y) , Marked_activate(Y)> 
     --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_if(false,X,Y) , Marked_activate(Y)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_if(false,X,Y) , Marked_activate(Y)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_if(false,X,Y) , Marked_activate(Y)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_if(false,X,Y) , Marked_activate(Y)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_if(false,X,Y) , Marked_activate(Y)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_if(true,X,Y) , Marked_activate(X)> 
     --> <Marked_activate(n__p(X)) , Marked_activate(X)>
  <Marked_if(true,X,Y) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_activate(X)>
  <Marked_if(true,X,Y) , Marked_activate(X)> 
     --> <Marked_activate(n__fact(X)) , Marked_fact(activate(X))>
  <Marked_if(true,X,Y) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X2)>
  <Marked_if(true,X,Y) , Marked_activate(X)> 
     --> <Marked_activate(n__prod(X1,X2)) , Marked_activate(X1)>
  <Marked_if(true,X,Y) , Marked_activate(X)> 
     --> <Marked_activate(n__s(X)) , Marked_activate(X)>
  <Marked_fact(X) , Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X))))> 
     --> <Marked_if(false,X,Y) , Marked_activate(Y)>
  <Marked_fact(X) , Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X))))> 
     --> <Marked_if(true,X,Y) , Marked_activate(X)>
}

{  <Marked_prod(s(X),Y) , Marked_prod(X,Y)> 
      --> <Marked_prod(s(X),Y) , Marked_prod(X,Y)>
}

{  <Marked_add(s(X),Y) , Marked_add(X,Y)> 
      --> <Marked_add(s(X),Y) , Marked_add(X,Y)>
}
APPLY CRITERIA (Subterm criterion)
APPLY CRITERIA (Choosing graph)
Trying to solve the following constraints:
{
  if(true,X,Y) >= activate(X) ;
  if(false,X,Y) >= activate(Y) ;
  zero(0) >= true ;
  zero(s(X)) >= false ;
  fact(X) >= if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
  fact(X) >= n__fact(X) ;
  add(0,X) >= X ;
  add(s(X),Y) >= s(add(X,Y)) ;
  0 >= n__0 ;
  s(X) >= n__s(X) ;
  prod(0,X) >= 0 ;
  prod(s(X),Y) >= add(Y,prod(X,Y)) ;
  prod(X1,X2) >= n__prod(X1,X2) ;
  activate(n__s(X)) >= s(activate(X)) ;
  activate(n__0) >= 0 ;
  activate(n__prod(X1,X2)) >= prod(activate(X1),activate(X2)) ;
  activate(n__fact(X)) >= fact(activate(X)) ;
  activate(n__p(X)) >= p(activate(X)) ;
  activate(X) >= X ;
  p(s(X)) >= X ;
  p(X) >= n__p(X) ;
  Marked_activate(n__s(X)) >= Marked_activate(X) ;
  Marked_activate(n__prod(X1,X2)) >= Marked_activate(X1) ;
  Marked_activate(n__prod(X1,X2)) >= Marked_activate(X2) ;
  Marked_activate(n__fact(X)) >= Marked_activate(X) ;
  Marked_activate(n__fact(X)) >= Marked_fact(activate(X)) ;
  Marked_activate(n__p(X)) >= Marked_activate(X) ;
  Marked_fact(X) >= Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
  Marked_if(true,X,Y) >= Marked_activate(X) ;
  Marked_if(false,X,Y) >= Marked_activate(Y) ;
 }
 + Disjunctions:{ 
{
  Marked_activate(n__s(X)) > Marked_activate(X) ;
 }
{
  Marked_activate(n__prod(X1,X2)) > Marked_activate(X1) ;
 }
{
  Marked_activate(n__prod(X1,X2)) > Marked_activate(X2) ;
 }
{
  Marked_activate(n__fact(X)) > Marked_activate(X) ;
 }
{
  Marked_activate(n__fact(X)) > Marked_fact(activate(X)) ;
 }
{
  Marked_activate(n__p(X)) > Marked_activate(X) ;
 }
{
  Marked_fact(X) > Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
 }
{
  Marked_if(true,X,Y) > Marked_activate(X) ;
 }
{
  Marked_if(false,X,Y) > Marked_activate(Y) ;
 }
 } 
=== TIMER virtual : 10.000000 ===
Entering poly_solver
Starting Sat solver initialization
Calling Sat solver...
=== STOPING TIMER virtual ===
=== TIMER real : 10.000000 ===
=== STOPING TIMER real ===
Sat solver returned
=== STOPING TIMER real ===
=== STOPING TIMER virtual ===
No solution found for these parameters.
Entering rpo_solver
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
=== TIMER virtual : 15.000000 ===
Entering poly_solver
Starting Sat solver initialization
Calling Sat solver...
=== STOPING TIMER virtual ===
=== TIMER real : 15.000000 ===
=== STOPING TIMER real ===
Sat solver returned
=== STOPING TIMER real ===
=== STOPING TIMER virtual ===
No solution found for these parameters.
=== TIMER virtual : 50.000000 ===
trying sub matrices of size: 1
Matrix interpretation constraints generated.
Search parameters: LINEAR MATRIX 3x3 (strict=1x1) ; time limit: 50.. 
Termination constraints generated.
Starting Sat solver initialization
Calling Sat solver...
=== STOPING TIMER virtual ===
=== TIMER real : 50.000000 ===
=== STOPING TIMER real ===
Sat solver returned
=== STOPING TIMER real ===
=== STOPING TIMER virtual ===
No solution found for these parameters.
No solution found for these constraints.
APPLY CRITERIA (Simple graph)
Found the following constraints:
{
  if(true,X,Y) >= activate(X) ;
  if(false,X,Y) >= activate(Y) ;
  zero(0) >= true ;
  zero(s(X)) >= false ;
  fact(X) >= if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
  fact(X) >= n__fact(X) ;
  add(0,X) >= X ;
  add(s(X),Y) >= s(add(X,Y)) ;
  0 >= n__0 ;
  s(X) >= n__s(X) ;
  prod(0,X) >= 0 ;
  prod(s(X),Y) >= add(Y,prod(X,Y)) ;
  prod(X1,X2) >= n__prod(X1,X2) ;
  activate(n__s(X)) >= s(activate(X)) ;
  activate(n__0) >= 0 ;
  activate(n__prod(X1,X2)) >= prod(activate(X1),activate(X2)) ;
  activate(n__fact(X)) >= fact(activate(X)) ;
  activate(n__p(X)) >= p(activate(X)) ;
  activate(X) >= X ;
  p(s(X)) >= X ;
  p(X) >= n__p(X) ;
  Marked_activate(n__s(X)) > Marked_activate(X) ;
  Marked_activate(n__prod(X1,X2)) > Marked_activate(X1) ;
  Marked_activate(n__prod(X1,X2)) > Marked_activate(X2) ;
  Marked_activate(n__fact(X)) > Marked_activate(X) ;
  Marked_activate(n__fact(X)) >= Marked_fact(activate(X)) ;
  Marked_activate(n__p(X)) > Marked_activate(X) ;
  Marked_fact(X) >= Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
  Marked_if(true,X,Y) > Marked_activate(X) ;
  Marked_if(false,X,Y) > Marked_activate(Y) ;
 }

APPLY CRITERIA (SOLVE_ORD)
Trying to solve the following constraints:
{
  if(true,X,Y) >= activate(X) ;
  if(false,X,Y) >= activate(Y) ;
  zero(0) >= true ;
  zero(s(X)) >= false ;
  fact(X) >= if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
  fact(X) >= n__fact(X) ;
  add(0,X) >= X ;
  add(s(X),Y) >= s(add(X,Y)) ;
  0 >= n__0 ;
  s(X) >= n__s(X) ;
  prod(0,X) >= 0 ;
  prod(s(X),Y) >= add(Y,prod(X,Y)) ;
  prod(X1,X2) >= n__prod(X1,X2) ;
  activate(n__s(X)) >= s(activate(X)) ;
  activate(n__0) >= 0 ;
  activate(n__prod(X1,X2)) >= prod(activate(X1),activate(X2)) ;
  activate(n__fact(X)) >= fact(activate(X)) ;
  activate(n__p(X)) >= p(activate(X)) ;
  activate(X) >= X ;
  p(s(X)) >= X ;
  p(X) >= n__p(X) ;
  Marked_activate(n__s(X)) > Marked_activate(X) ;
  Marked_activate(n__prod(X1,X2)) > Marked_activate(X1) ;
  Marked_activate(n__prod(X1,X2)) > Marked_activate(X2) ;
  Marked_activate(n__fact(X)) > Marked_activate(X) ;
  Marked_activate(n__fact(X)) >= Marked_fact(activate(X)) ;
  Marked_activate(n__p(X)) > Marked_activate(X) ;
  Marked_fact(X) >= Marked_if(zero(X),n__s(n__0),n__prod(X,n__fact(n__p(X)))) ;
  Marked_if(true,X,Y) > Marked_activate(X) ;
  Marked_if(false,X,Y) > Marked_activate(Y) ;
 }
 + Disjunctions:{ 
 } 
=== TIMER virtual : 10.000000 ===
Entering poly_solver
Starting Sat solver initialization
Calling Sat solver...
=== STOPING TIMER virtual ===
=== TIMER real : 10.000000 ===
=== STOPING TIMER real ===
Sat solver returned
=== STOPING TIMER real ===
=== STOPING TIMER virtual ===
No solution found for these parameters.
Entering rpo_solver
=== TIMER virtual : 25.000000 ===
Search parameters: AFS type: 2 ; time limit: 25.. 
=== STOPING TIMER virtual ===
No solution found for these parameters.(1115 bt (1129) [317])
=== TIMER virtual : 15.000000 ===
Entering poly_solver
Starting Sat solver initialization
Calling Sat solver...
=== STOPING TIMER virtual ===
=== TIMER real : 15.000000 ===
=== STOPING TIMER real ===
Sat solver returned
=== STOPING TIMER real ===
=== STOPING TIMER virtual ===
No solution found for these parameters.
=== TIMER virtual : 50.000000 ===
trying sub matrices of size: 1
Matrix interpretation constraints generated.
Search parameters: LINEAR MATRIX 3x3 (strict=1x1) ; time limit: 50.. 
Termination constraints generated.
Starting Sat solver initialization
Calling Sat solver...
=== STOPING TIMER virtual ===
=== TIMER real : 50.000000 ===
=== STOPING TIMER real ===
Sat solver returned
=== STOPING TIMER real ===
=== STOPING TIMER virtual ===
No solution found for these parameters.
No solution found for these constraints.
APPLY CRITERIA (ID_CRIT)
NOT SOLVED
No proof found
Cime worked for 17.365447 seconds (real time)
Cime Exit Status: 0