Apply add_nat_SR with u13, 5, λ x0 x1 . x1 = u19 leaving 2 subgoals.

The subproof is completed by applying nat_5.

Apply add_nat_SR with u13, 4, λ x0 x1 . ordsucc x1 = u19 leaving 2 subgoals.

The subproof is completed by applying nat_4.

Apply add_nat_SR with u13, 3, λ x0 x1 . ordsucc (ordsucc x1) = u19 leaving 2 subgoals.

The subproof is completed by applying nat_3.

Apply add_nat_SR with u13, 2, λ x0 x1 . ordsucc (ordsucc (ordsucc x1)) = u19 leaving 2 subgoals.

The subproof is completed by applying nat_2.

Apply add_nat_SR with u13, 1, λ x0 x1 . ordsucc (ordsucc (ordsucc (ordsucc x1))) = u19 leaving 2 subgoals.

The subproof is completed by applying nat_1.

Apply add_nat_SR with u13, 0, λ x0 x1 . ordsucc (ordsucc (ordsucc (ordsucc (ordsucc x1)))) = u19 leaving 2 subgoals.

The subproof is completed by applying nat_0.

Apply add_nat_0R with u13, λ x0 x1 . ordsucc (ordsucc (ordsucc (ordsucc (ordsucc (ordsucc x1))))) = u19.

Let x0 of type ι → ι → ο be given.

The subproof is completed by applying H0.

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Proofgold Proof