Runtime Complexity (innermost) proof of /tmp/tmpvG2p

The Runtime Complexity (innermost) of the given CpxTRS could be proven to be BOUNDS(1, n^2).

0 CpxTRS

↳1 TrsToWeightedTrsProof (BOTH BOUNDS(ID, ID), 0 ms)

↳2 CpxWeightedTrs

↳3 CpxWeightedTrsRenamingProof (BOTH BOUNDS(ID, ID), 3 ms)

↳4 CpxWeightedTrs

↳5 TypeInferenceProof (BOTH BOUNDS(ID, ID), 0 ms)

↳6 CpxTypedWeightedTrs

↳7 CompletionProof (UPPER BOUND(ID), 0 ms)

↳8 CpxTypedWeightedCompleteTrs

↳9 NarrowingProof (BOTH BOUNDS(ID, ID), 0 ms)

↳10 CpxTypedWeightedCompleteTrs

↳11 CpxTypedWeightedTrsToRntsProof (UPPER BOUND(ID), 0 ms)

↳12 CpxRNTS

↳13 SimplificationProof (BOTH BOUNDS(ID, ID), 0 ms)

↳14 CpxRNTS

↳15 CpxRntsAnalysisOrderProof (BOTH BOUNDS(ID, ID), 0 ms)

↳16 CpxRNTS

↳17 IntTrsBoundProof (UPPER BOUND(ID), 398 ms)

↳18 CpxRNTS

↳19 IntTrsBoundProof (UPPER BOUND(ID), 84 ms)

↳20 CpxRNTS

↳21 ResultPropagationProof (UPPER BOUND(ID), 0 ms)

↳22 CpxRNTS

↳23 IntTrsBoundProof (UPPER BOUND(ID), 391 ms)

↳24 CpxRNTS

↳25 IntTrsBoundProof (UPPER BOUND(ID), 135 ms)

↳26 CpxRNTS

↳27 FinalProof (⇔, 0 ms)

↳28 BOUNDS(1, n^2)

(0) Obligation:

The Runtime Complexity (innermost) of the given CpxTRS could be proven to be BOUNDS(1, n^2).

The TRS R consists of the following rules:

sum(0) → 0
sum(s(x)) → +(sum(x), s(x))
+(x, 0) → x
+(x, s(y)) → s(+(x, y))

Rewrite Strategy: INNERMOST

(1) TrsToWeightedTrsProof (BOTH BOUNDS(ID, ID) transformation)

Transformed TRS to weighted TRS

(2) Obligation:

The Runtime Complexity (innermost) of the given CpxWeightedTrs could be proven to be BOUNDS(1, n^2).

The TRS R consists of the following rules:

sum(0) → 0 [1]
sum(s(x)) → +(sum(x), s(x)) [1]
+(x, 0) → x [1]
+(x, s(y)) → s(+(x, y)) [1]

Rewrite Strategy: INNERMOST

(3) CpxWeightedTrsRenamingProof (BOTH BOUNDS(ID, ID) transformation)

Renamed defined symbols to avoid conflicts with arithmetic symbols:

+ => plus

(4) Obligation:

The Runtime Complexity (innermost) of the given CpxWeightedTrs could be proven to be BOUNDS(1, n^2).

The TRS R consists of the following rules:

sum(0) → 0 [1]
sum(s(x)) → plus(sum(x), s(x)) [1]
plus(x, 0) → x [1]
plus(x, s(y)) → s(plus(x, y)) [1]

Rewrite Strategy: INNERMOST

(5) TypeInferenceProof (BOTH BOUNDS(ID, ID) transformation)

Infered types.

(6) Obligation:

Runtime Complexity Weighted TRS with Types.
The TRS R consists of the following rules:

sum(0) → 0 [1]
sum(s(x)) → plus(sum(x), s(x)) [1]
plus(x, 0) → x [1]
plus(x, s(y)) → s(plus(x, y)) [1]

The TRS has the following type information:

sum :: 0:s → 0:s
0 :: 0:s
s :: 0:s → 0:s
plus :: 0:s → 0:s → 0:s

Rewrite Strategy: INNERMOST

(7) CompletionProof (UPPER BOUND(ID) transformation)

The transformation into a RNTS is sound, since:

(a) The obligation is a constructor system where every type has a constant constructor,

(b) The following defined symbols do not have to be completely defined, as they can never occur inside other defined symbols:
none

(c) The following functions are completely defined:

sum
plus

Due to the following rules being added:
none

And the following fresh constants: none

(8) Obligation:

Runtime Complexity Weighted TRS where critical functions are completely defined. The underlying TRS is:

Runtime Complexity Weighted TRS with Types.
The TRS R consists of the following rules:

sum(0) → 0 [1]
sum(s(x)) → plus(sum(x), s(x)) [1]
plus(x, 0) → x [1]
plus(x, s(y)) → s(plus(x, y)) [1]

The TRS has the following type information:

sum :: 0:s → 0:s
0 :: 0:s
s :: 0:s → 0:s
plus :: 0:s → 0:s → 0:s

Rewrite Strategy: INNERMOST

(9) NarrowingProof (BOTH BOUNDS(ID, ID) transformation)

Narrowed the inner basic terms of all right-hand sides by a single narrowing step.

(10) Obligation:

Runtime Complexity Weighted TRS where critical functions are completely defined. The underlying TRS is:

Runtime Complexity Weighted TRS with Types.
The TRS R consists of the following rules:

sum(0) → 0 [1]
sum(s(0)) → plus(0, s(0)) [2]
sum(s(s(x'))) → plus(plus(sum(x'), s(x')), s(s(x'))) [2]
plus(x, 0) → x [1]
plus(x, s(y)) → s(plus(x, y)) [1]

The TRS has the following type information:

sum :: 0:s → 0:s
0 :: 0:s
s :: 0:s → 0:s
plus :: 0:s → 0:s → 0:s

Rewrite Strategy: INNERMOST

(11) CpxTypedWeightedTrsToRntsProof (UPPER BOUND(ID) transformation)

Transformed the TRS into an over-approximating RNTS by (improved) Size Abstraction.
The constant constructors are abstracted as follows:

0 => 0

(12) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ x :|: x >= 0, z = x, z' = 0
plus(z, z') -{ 1 }→ 1 + plus(x, y) :|: z' = 1 + y, x >= 0, y >= 0, z = x
sum(z) -{ 2 }→ plus(plus(sum(x'), 1 + x'), 1 + (1 + x')) :|: x' >= 0, z = 1 + (1 + x')
sum(z) -{ 2 }→ plus(0, 1 + 0) :|: z = 1 + 0
sum(z) -{ 1 }→ 0 :|: z = 0

(13) SimplificationProof (BOTH BOUNDS(ID, ID) transformation)

Simplified the RNTS by moving equalities from the constraints into the right-hand sides.

(14) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 }→ 1 + plus(z, z' - 1) :|: z >= 0, z' - 1 >= 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 2 }→ plus(0, 1 + 0) :|: z = 1 + 0
sum(z) -{ 1 }→ 0 :|: z = 0

(15) CpxRntsAnalysisOrderProof (BOTH BOUNDS(ID, ID) transformation)

Found the following analysis order by SCC decomposition:

{ plus }
{ sum }

(16) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 }→ 1 + plus(z, z' - 1) :|: z >= 0, z' - 1 >= 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 2 }→ plus(0, 1 + 0) :|: z = 1 + 0
sum(z) -{ 1 }→ 0 :|: z = 0

Function symbols to be analyzed: {plus}, {sum}

(17) IntTrsBoundProof (UPPER BOUND(ID) transformation)

Computed SIZE bound using CoFloCo for: plus
after applying outer abstraction to obtain an ITS,
resulting in: O(n¹) with polynomial bound: z + z'

(18) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 }→ 1 + plus(z, z' - 1) :|: z >= 0, z' - 1 >= 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 2 }→ plus(0, 1 + 0) :|: z = 1 + 0
sum(z) -{ 1 }→ 0 :|: z = 0

Function symbols to be analyzed: {plus}, {sum}
Previous analysis results are:

plus: runtime: ?, size: O(n¹) [z + z']

(19) IntTrsBoundProof (UPPER BOUND(ID) transformation)

Computed RUNTIME bound using CoFloCo for: plus
after applying outer abstraction to obtain an ITS,
resulting in: O(n¹) with polynomial bound: 1 + z'

(20) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 }→ 1 + plus(z, z' - 1) :|: z >= 0, z' - 1 >= 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 2 }→ plus(0, 1 + 0) :|: z = 1 + 0
sum(z) -{ 1 }→ 0 :|: z = 0

Function symbols to be analyzed: {sum}
Previous analysis results are:

plus: runtime: O(n¹) [1 + z'], size: O(n¹) [z + z']

(21) ResultPropagationProof (UPPER BOUND(ID) transformation)

Applied inner abstraction using the recently inferred runtime/size bounds where possible.

(22) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 + z' }→ 1 + s' :|: s' >= 0, s' <= 1 * z + 1 * (z' - 1), z >= 0, z' - 1 >= 0
sum(z) -{ 4 }→ s :|: s >= 0, s <= 1 * 0 + 1 * (1 + 0), z = 1 + 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 1 }→ 0 :|: z = 0

Function symbols to be analyzed: {sum}
Previous analysis results are:

plus: runtime: O(n¹) [1 + z'], size: O(n¹) [z + z']

(23) IntTrsBoundProof (UPPER BOUND(ID) transformation)

Computed SIZE bound using KoAT for: sum
after applying outer abstraction to obtain an ITS,
resulting in: O(n²) with polynomial bound: 1 + 2·z²

(24) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 + z' }→ 1 + s' :|: s' >= 0, s' <= 1 * z + 1 * (z' - 1), z >= 0, z' - 1 >= 0
sum(z) -{ 4 }→ s :|: s >= 0, s <= 1 * 0 + 1 * (1 + 0), z = 1 + 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 1 }→ 0 :|: z = 0

Function symbols to be analyzed: {sum}
Previous analysis results are:

plus: runtime: O(n¹) [1 + z'], size: O(n¹) [z + z']
sum: runtime: ?, size: O(n²) [1 + 2·z²]

(25) IntTrsBoundProof (UPPER BOUND(ID) transformation)

Computed RUNTIME bound using PUBS for: sum
after applying outer abstraction to obtain an ITS,
resulting in: O(n²) with polynomial bound: 4 + 3·z + 2·z²

(26) Obligation:

Complexity RNTS consisting of the following rules:

plus(z, z') -{ 1 }→ z :|: z >= 0, z' = 0
plus(z, z') -{ 1 + z' }→ 1 + s' :|: s' >= 0, s' <= 1 * z + 1 * (z' - 1), z >= 0, z' - 1 >= 0
sum(z) -{ 4 }→ s :|: s >= 0, s <= 1 * 0 + 1 * (1 + 0), z = 1 + 0
sum(z) -{ 2 }→ plus(plus(sum(z - 2), 1 + (z - 2)), 1 + (1 + (z - 2))) :|: z - 2 >= 0
sum(z) -{ 1 }→ 0 :|: z = 0

Function symbols to be analyzed:
Previous analysis results are:

plus: runtime: O(n¹) [1 + z'], size: O(n¹) [z + z']
sum: runtime: O(n²) [4 + 3·z + 2·z²], size: O(n²) [1 + 2·z²]

(27) FinalProof (EQUIVALENT transformation)

Computed overall runtime complexity

(0) Obligation:

(1) TrsToWeightedTrsProof (BOTH BOUNDS(ID, ID) transformation)

(2) Obligation:

(3) CpxWeightedTrsRenamingProof (BOTH BOUNDS(ID, ID) transformation)

(4) Obligation:

(5) TypeInferenceProof (BOTH BOUNDS(ID, ID) transformation)

(6) Obligation:

(7) CompletionProof (UPPER BOUND(ID) transformation)

(8) Obligation:

(9) NarrowingProof (BOTH BOUNDS(ID, ID) transformation)

(10) Obligation:

(11) CpxTypedWeightedTrsToRntsProof (UPPER BOUND(ID) transformation)

(12) Obligation:

(13) SimplificationProof (BOTH BOUNDS(ID, ID) transformation)

(14) Obligation:

(15) CpxRntsAnalysisOrderProof (BOTH BOUNDS(ID, ID) transformation)

(16) Obligation:

(17) IntTrsBoundProof (UPPER BOUND(ID) transformation)

(18) Obligation:

(19) IntTrsBoundProof (UPPER BOUND(ID) transformation)

(20) Obligation:

(21) ResultPropagationProof (UPPER BOUND(ID) transformation)

(22) Obligation:

(23) IntTrsBoundProof (UPPER BOUND(ID) transformation)

(24) Obligation:

(25) IntTrsBoundProof (UPPER BOUND(ID) transformation)

(26) Obligation:

(27) FinalProof (EQUIVALENT transformation)

(28) BOUNDS(1, n^2)