MAYBE

We are left with following problem, upon which TcT provides the
certificate MAYBE.

Strict Trs:
  { le(0(), y) -> true()
  , le(s(x), 0()) -> false()
  , le(s(x), s(y)) -> le(x, y)
  , eq(0(), 0()) -> true()
  , eq(0(), s(y)) -> false()
  , eq(s(x), 0()) -> false()
  , eq(s(x), s(y)) -> eq(x, y)
  , if(true(), x, y) -> x
  , if(false(), x, y) -> y
  , minsort(nil()) -> nil()
  , minsort(cons(x, y)) ->
    cons(min(x, y), minsort(del(min(x, y), cons(x, y))))
  , min(x, nil()) -> x
  , min(x, cons(y, z)) -> if(le(x, y), min(x, z), min(y, z))
  , del(x, nil()) -> nil()
  , del(x, cons(y, z)) -> if(eq(x, y), z, cons(y, del(x, z))) }
Obligation:
  runtime complexity
Answer:
  MAYBE

None of the processors succeeded.

Details of failed attempt(s):
-----------------------------
1) 'WithProblem (timeout of 60 seconds)' failed due to the
   following reason:
   
   Computation stopped due to timeout after 60.0 seconds.

2) 'Best' failed due to the following reason:
   
   None of the processors succeeded.
   
   Details of failed attempt(s):
   -----------------------------
   1) 'WithProblem (timeout of 30 seconds) (timeout of 60 seconds)'
      failed due to the following reason:
      
      Computation stopped due to timeout after 30.0 seconds.
   
   2) 'Best' failed due to the following reason:
      
      None of the processors succeeded.
      
      Details of failed attempt(s):
      -----------------------------
      1) 'Polynomial Path Order (PS) (timeout of 60 seconds)' failed due
         to the following reason:
         
         The processor is inapplicable, reason:
           Processor only applicable for innermost runtime complexity analysis
      
      2) 'bsearch-popstar (timeout of 60 seconds)' failed due to the
         following reason:
         
         The processor is inapplicable, reason:
           Processor only applicable for innermost runtime complexity analysis
      
   
   3) 'Fastest (timeout of 5 seconds) (timeout of 60 seconds)' failed
      due to the following reason:
      
      None of the processors succeeded.
      
      Details of failed attempt(s):
      -----------------------------
      1) 'Bounds with perSymbol-enrichment and initial automaton 'match''
         failed due to the following reason:
         
         match-boundness of the problem could not be verified.
      
      2) 'Bounds with minimal-enrichment and initial automaton 'match''
         failed due to the following reason:
         
         match-boundness of the problem could not be verified.
      
   

3) 'Innermost Weak Dependency Pairs (timeout of 60 seconds)' failed
   due to the following reason:
   
   We add the following weak dependency pairs:
   
   Strict DPs:
     { le^#(0(), y) -> c_1()
     , le^#(s(x), 0()) -> c_2()
     , le^#(s(x), s(y)) -> c_3(le^#(x, y))
     , eq^#(0(), 0()) -> c_4()
     , eq^#(0(), s(y)) -> c_5()
     , eq^#(s(x), 0()) -> c_6()
     , eq^#(s(x), s(y)) -> c_7(eq^#(x, y))
     , if^#(true(), x, y) -> c_8(x)
     , if^#(false(), x, y) -> c_9(y)
     , minsort^#(nil()) -> c_10()
     , minsort^#(cons(x, y)) ->
       c_11(min^#(x, y), minsort^#(del(min(x, y), cons(x, y))))
     , min^#(x, nil()) -> c_12(x)
     , min^#(x, cons(y, z)) ->
       c_13(if^#(le(x, y), min(x, z), min(y, z)))
     , del^#(x, nil()) -> c_14()
     , del^#(x, cons(y, z)) ->
       c_15(if^#(eq(x, y), z, cons(y, del(x, z)))) }
   
   and mark the set of starting terms.
   
   We are left with following problem, upon which TcT provides the
   certificate MAYBE.
   
   Strict DPs:
     { le^#(0(), y) -> c_1()
     , le^#(s(x), 0()) -> c_2()
     , le^#(s(x), s(y)) -> c_3(le^#(x, y))
     , eq^#(0(), 0()) -> c_4()
     , eq^#(0(), s(y)) -> c_5()
     , eq^#(s(x), 0()) -> c_6()
     , eq^#(s(x), s(y)) -> c_7(eq^#(x, y))
     , if^#(true(), x, y) -> c_8(x)
     , if^#(false(), x, y) -> c_9(y)
     , minsort^#(nil()) -> c_10()
     , minsort^#(cons(x, y)) ->
       c_11(min^#(x, y), minsort^#(del(min(x, y), cons(x, y))))
     , min^#(x, nil()) -> c_12(x)
     , min^#(x, cons(y, z)) ->
       c_13(if^#(le(x, y), min(x, z), min(y, z)))
     , del^#(x, nil()) -> c_14()
     , del^#(x, cons(y, z)) ->
       c_15(if^#(eq(x, y), z, cons(y, del(x, z)))) }
   Strict Trs:
     { le(0(), y) -> true()
     , le(s(x), 0()) -> false()
     , le(s(x), s(y)) -> le(x, y)
     , eq(0(), 0()) -> true()
     , eq(0(), s(y)) -> false()
     , eq(s(x), 0()) -> false()
     , eq(s(x), s(y)) -> eq(x, y)
     , if(true(), x, y) -> x
     , if(false(), x, y) -> y
     , minsort(nil()) -> nil()
     , minsort(cons(x, y)) ->
       cons(min(x, y), minsort(del(min(x, y), cons(x, y))))
     , min(x, nil()) -> x
     , min(x, cons(y, z)) -> if(le(x, y), min(x, z), min(y, z))
     , del(x, nil()) -> nil()
     , del(x, cons(y, z)) -> if(eq(x, y), z, cons(y, del(x, z))) }
   Obligation:
     runtime complexity
   Answer:
     MAYBE
   
   We estimate the number of application of {1,2,4,5,6,10,14} by
   applications of Pre({1,2,4,5,6,10,14}) = {3,7,8,9,11,12}. Here
   rules are labeled as follows:
   
     DPs:
       { 1: le^#(0(), y) -> c_1()
       , 2: le^#(s(x), 0()) -> c_2()
       , 3: le^#(s(x), s(y)) -> c_3(le^#(x, y))
       , 4: eq^#(0(), 0()) -> c_4()
       , 5: eq^#(0(), s(y)) -> c_5()
       , 6: eq^#(s(x), 0()) -> c_6()
       , 7: eq^#(s(x), s(y)) -> c_7(eq^#(x, y))
       , 8: if^#(true(), x, y) -> c_8(x)
       , 9: if^#(false(), x, y) -> c_9(y)
       , 10: minsort^#(nil()) -> c_10()
       , 11: minsort^#(cons(x, y)) ->
             c_11(min^#(x, y), minsort^#(del(min(x, y), cons(x, y))))
       , 12: min^#(x, nil()) -> c_12(x)
       , 13: min^#(x, cons(y, z)) ->
             c_13(if^#(le(x, y), min(x, z), min(y, z)))
       , 14: del^#(x, nil()) -> c_14()
       , 15: del^#(x, cons(y, z)) ->
             c_15(if^#(eq(x, y), z, cons(y, del(x, z)))) }
   
   We are left with following problem, upon which TcT provides the
   certificate MAYBE.
   
   Strict DPs:
     { le^#(s(x), s(y)) -> c_3(le^#(x, y))
     , eq^#(s(x), s(y)) -> c_7(eq^#(x, y))
     , if^#(true(), x, y) -> c_8(x)
     , if^#(false(), x, y) -> c_9(y)
     , minsort^#(cons(x, y)) ->
       c_11(min^#(x, y), minsort^#(del(min(x, y), cons(x, y))))
     , min^#(x, nil()) -> c_12(x)
     , min^#(x, cons(y, z)) ->
       c_13(if^#(le(x, y), min(x, z), min(y, z)))
     , del^#(x, cons(y, z)) ->
       c_15(if^#(eq(x, y), z, cons(y, del(x, z)))) }
   Strict Trs:
     { le(0(), y) -> true()
     , le(s(x), 0()) -> false()
     , le(s(x), s(y)) -> le(x, y)
     , eq(0(), 0()) -> true()
     , eq(0(), s(y)) -> false()
     , eq(s(x), 0()) -> false()
     , eq(s(x), s(y)) -> eq(x, y)
     , if(true(), x, y) -> x
     , if(false(), x, y) -> y
     , minsort(nil()) -> nil()
     , minsort(cons(x, y)) ->
       cons(min(x, y), minsort(del(min(x, y), cons(x, y))))
     , min(x, nil()) -> x
     , min(x, cons(y, z)) -> if(le(x, y), min(x, z), min(y, z))
     , del(x, nil()) -> nil()
     , del(x, cons(y, z)) -> if(eq(x, y), z, cons(y, del(x, z))) }
   Weak DPs:
     { le^#(0(), y) -> c_1()
     , le^#(s(x), 0()) -> c_2()
     , eq^#(0(), 0()) -> c_4()
     , eq^#(0(), s(y)) -> c_5()
     , eq^#(s(x), 0()) -> c_6()
     , minsort^#(nil()) -> c_10()
     , del^#(x, nil()) -> c_14() }
   Obligation:
     runtime complexity
   Answer:
     MAYBE
   
   Empty strict component of the problem is NOT empty.


Arrrr..