WORST_CASE(?,O(n^1))
proof of input_IAV1FIoCcW.trs
# AProVE Commit ID: aff8ecad908e01718a4c36e68d2e55d5e0f16e15 fuhs 20220216 unpublished


The Runtime Complexity (parallel-innermost) of the given CpxTRS could be proven to be BOUNDS(1, n^1).

(0) CpxTRS
(1) RelTrsToTrsProof [UPPER BOUND(ID), 0 ms]
(2) CpxTRS
(3) CpxTrsMatchBoundsTAProof [FINISHED, 0 ms]
(4) BOUNDS(1, n^1)


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(0)
Obligation:
The Runtime Complexity (parallel-innermost) of the given CpxTRS could be proven to be BOUNDS(1, n^1).


The TRS R consists of the following rules:

   rev(ls) -> r1(ls, empty)
   r1(empty, a) -> a
   r1(cons(x, k), a) -> r1(k, cons(x, a))

S is empty.
Rewrite Strategy: PARALLEL_INNERMOST
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(1) RelTrsToTrsProof (UPPER BOUND(ID))
transformed relative TRS to TRS
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(2)
Obligation:
The Runtime Complexity (parallel-innermost) of the given CpxTRS could be proven to be BOUNDS(1, n^1).


The TRS R consists of the following rules:

   rev(ls) -> r1(ls, empty)
   r1(empty, a) -> a
   r1(cons(x, k), a) -> r1(k, cons(x, a))

S is empty.
Rewrite Strategy: PARALLEL_INNERMOST
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(3) CpxTrsMatchBoundsTAProof (FINISHED)
A linear upper bound on the runtime complexity of the TRS R could be shown with a Match-Bound[TAB_LEFTLINEAR,TAB_NONLEFTLINEAR] (for contructor-based start-terms) of 1. 

The compatible tree automaton used to show the Match-Boundedness (for constructor-based start-terms) is represented by: 
final states : [1, 2]
transitions: 
empty0() -> 0
cons0(0, 0) -> 0
rev0(0) -> 1
r10(0, 0) -> 2
empty1() -> 3
r11(0, 3) -> 1
cons1(0, 0) -> 4
r11(0, 4) -> 2
cons1(0, 3) -> 4
r11(0, 4) -> 1
cons1(0, 4) -> 4
0 -> 2
3 -> 1
4 -> 2
4 -> 1

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(4)
BOUNDS(1, n^1)