(0) Obligation:
Clauses:
f(X) :- ','(p(X), q(X)).
p(a) :- !.
p(X) :- p(Y).
q(b).
Query: f(a)
(1) PrologToCdtProblemTransformerProof (UPPER BOUND (ID) transformation)
Built complexity over-approximating cdt problems from derivation graph.
(2) Obligation:
Complexity Dependency Tuples Problem
Rules:
f2_in → U1(f6_in)
U1(f6_out1(z0)) → f2_out1(z0)
f15_in → f15_out1
f17_in → f17_out1(b)
f6_in → U2(f15_in)
U2(f15_out1) → U3(f17_in)
U3(f17_out1(z0)) → f6_out1(z0)
Tuples:
F2_IN → c(U1'(f6_in), F6_IN)
F6_IN → c4(U2'(f15_in), F15_IN)
U2'(f15_out1) → c5(U3'(f17_in), F17_IN)
S tuples:
F2_IN → c(U1'(f6_in), F6_IN)
F6_IN → c4(U2'(f15_in), F15_IN)
U2'(f15_out1) → c5(U3'(f17_in), F17_IN)
K tuples:none
Defined Rule Symbols:
f2_in, U1, f15_in, f17_in, f6_in, U2, U3
Defined Pair Symbols:
F2_IN, F6_IN, U2'
Compound Symbols:
c, c4, c5
(3) CdtGraphSplitRhsProof (BOTH BOUNDS(ID, ID) transformation)
Split RHS of tuples not part of any SCC
(4) Obligation:
Complexity Dependency Tuples Problem
Rules:
f2_in → U1(f6_in)
U1(f6_out1(z0)) → f2_out1(z0)
f15_in → f15_out1
f17_in → f17_out1(b)
f6_in → U2(f15_in)
U2(f15_out1) → U3(f17_in)
U3(f17_out1(z0)) → f6_out1(z0)
Tuples:
F2_IN → c1(U1'(f6_in))
F2_IN → c1(F6_IN)
F6_IN → c1(U2'(f15_in))
F6_IN → c1(F15_IN)
U2'(f15_out1) → c1(U3'(f17_in))
U2'(f15_out1) → c1(F17_IN)
S tuples:
F2_IN → c1(U1'(f6_in))
F2_IN → c1(F6_IN)
F6_IN → c1(U2'(f15_in))
F6_IN → c1(F15_IN)
U2'(f15_out1) → c1(U3'(f17_in))
U2'(f15_out1) → c1(F17_IN)
K tuples:none
Defined Rule Symbols:
f2_in, U1, f15_in, f17_in, f6_in, U2, U3
Defined Pair Symbols:
F2_IN, F6_IN, U2'
Compound Symbols:
c1
(5) CdtGraphRemoveTrailingTuplepartsProof (BOTH BOUNDS(ID, ID) transformation)
Removed 4 trailing tuple parts
(6) Obligation:
Complexity Dependency Tuples Problem
Rules:
f2_in → U1(f6_in)
U1(f6_out1(z0)) → f2_out1(z0)
f15_in → f15_out1
f17_in → f17_out1(b)
f6_in → U2(f15_in)
U2(f15_out1) → U3(f17_in)
U3(f17_out1(z0)) → f6_out1(z0)
Tuples:
F2_IN → c1(F6_IN)
F6_IN → c1(U2'(f15_in))
F2_IN → c1
F6_IN → c1
U2'(f15_out1) → c1
S tuples:
F2_IN → c1(F6_IN)
F6_IN → c1(U2'(f15_in))
F2_IN → c1
F6_IN → c1
U2'(f15_out1) → c1
K tuples:none
Defined Rule Symbols:
f2_in, U1, f15_in, f17_in, f6_in, U2, U3
Defined Pair Symbols:
F2_IN, F6_IN, U2'
Compound Symbols:
c1, c1
(7) CdtKnowledgeProof (EQUIVALENT transformation)
The following tuples could be moved from S to K by knowledge propagation:
F2_IN → c1(F6_IN)
F6_IN → c1(U2'(f15_in))
F2_IN → c1
F6_IN → c1
U2'(f15_out1) → c1
U2'(f15_out1) → c1
F6_IN → c1(U2'(f15_in))
F6_IN → c1
U2'(f15_out1) → c1
U2'(f15_out1) → c1
Now S is empty
(8) BOUNDS(O(1), O(1))
(9) PrologToCdtProblemTransformerProof (UPPER BOUND (ID) transformation)
Built complexity over-approximating cdt problems from derivation graph.
(10) Obligation:
Complexity Dependency Tuples Problem
Rules:
f1_in → U1(f13_in)
U1(f13_out1(z0)) → f1_out1(z0)
f14_in → f14_out1
f16_in → f16_out1(b)
f13_in → U2(f14_in)
U2(f14_out1) → U3(f16_in)
U3(f16_out1(z0)) → f13_out1(z0)
Tuples:
F1_IN → c(U1'(f13_in), F13_IN)
F13_IN → c4(U2'(f14_in), F14_IN)
U2'(f14_out1) → c5(U3'(f16_in), F16_IN)
S tuples:
F1_IN → c(U1'(f13_in), F13_IN)
F13_IN → c4(U2'(f14_in), F14_IN)
U2'(f14_out1) → c5(U3'(f16_in), F16_IN)
K tuples:none
Defined Rule Symbols:
f1_in, U1, f14_in, f16_in, f13_in, U2, U3
Defined Pair Symbols:
F1_IN, F13_IN, U2'
Compound Symbols:
c, c4, c5
(11) CdtGraphSplitRhsProof (BOTH BOUNDS(ID, ID) transformation)
Split RHS of tuples not part of any SCC
(12) Obligation:
Complexity Dependency Tuples Problem
Rules:
f1_in → U1(f13_in)
U1(f13_out1(z0)) → f1_out1(z0)
f14_in → f14_out1
f16_in → f16_out1(b)
f13_in → U2(f14_in)
U2(f14_out1) → U3(f16_in)
U3(f16_out1(z0)) → f13_out1(z0)
Tuples:
F1_IN → c1(U1'(f13_in))
F1_IN → c1(F13_IN)
F13_IN → c1(U2'(f14_in))
F13_IN → c1(F14_IN)
U2'(f14_out1) → c1(U3'(f16_in))
U2'(f14_out1) → c1(F16_IN)
S tuples:
F1_IN → c1(U1'(f13_in))
F1_IN → c1(F13_IN)
F13_IN → c1(U2'(f14_in))
F13_IN → c1(F14_IN)
U2'(f14_out1) → c1(U3'(f16_in))
U2'(f14_out1) → c1(F16_IN)
K tuples:none
Defined Rule Symbols:
f1_in, U1, f14_in, f16_in, f13_in, U2, U3
Defined Pair Symbols:
F1_IN, F13_IN, U2'
Compound Symbols:
c1
(13) CdtGraphRemoveTrailingTuplepartsProof (BOTH BOUNDS(ID, ID) transformation)
Removed 4 trailing tuple parts
(14) Obligation:
Complexity Dependency Tuples Problem
Rules:
f1_in → U1(f13_in)
U1(f13_out1(z0)) → f1_out1(z0)
f14_in → f14_out1
f16_in → f16_out1(b)
f13_in → U2(f14_in)
U2(f14_out1) → U3(f16_in)
U3(f16_out1(z0)) → f13_out1(z0)
Tuples:
F1_IN → c1(F13_IN)
F13_IN → c1(U2'(f14_in))
F1_IN → c1
F13_IN → c1
U2'(f14_out1) → c1
S tuples:
F1_IN → c1(F13_IN)
F13_IN → c1(U2'(f14_in))
F1_IN → c1
F13_IN → c1
U2'(f14_out1) → c1
K tuples:none
Defined Rule Symbols:
f1_in, U1, f14_in, f16_in, f13_in, U2, U3
Defined Pair Symbols:
F1_IN, F13_IN, U2'
Compound Symbols:
c1, c1