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Initial Control flow graph problem:
  Start location: f2
      1: f300 -> f300 : A'=-1+A, [ A>=0 ], cost: 1
      0: f300 -> f1 : B'=free, [ 0>=1+A ], cost: 1
      2: f2 -> f300 : [], cost: 1


Simplified the transitions:
  Start location: f2
      1: f300 -> f300 : A'=-1+A, [ A>=0 ], cost: 1
      2: f2 -> f300 : [], cost: 1

Eliminating 1 self-loops for location f300
  Self-Loop 1 has the metering function: 1+A, resulting in the new transition 3.
  Removing the self-loops: 1.

Removed all Self-loops using metering functions (where possible):
  Start location: f2
      3: f300 -> [3] : A'=-1, [ A>=0 ], cost: 1+A
      2: f2 -> f300 : [], cost: 1


Applied simple chaining:
  Start location: f2
      2: f2 -> [3] : A'=-1, [ A>=0 ], cost: 2+A


Final control flow graph problem, now checking costs for infinitely many models:
  Start location: f2
      2: f2 -> [3] : A'=-1, [ A>=0 ], cost: 2+A


Computing complexity for remaining 1 transitions.

  Found configuration with infinitely models for cost: 2+A
  and guard: A>=0:
  A: Pos

Found new complexity n^1, because: Found infinity configuration.


The final runtime is determined by this resulting transition:
  Final Guard: A>=0
  Final Cost:  2+A

Obtained the following complexity w.r.t. the length of the input n:
  Complexity class: n^1
  Complexity value: 1

WORST_CASE(Omega(n^1),?)