Let x0 of type ι be given.

Assume H0: nat_p x0.

Let x1 of type ι be given.

Let x2 of type ι be given.

Let x3 of type ι be given.

Let x4 of type ι be given.

Assume H1: even_nat x1.

Assume H2: even_nat x2.

Assume H3: odd_nat x3.

Assume H4: odd_nat x4.

Assume H5: SNoLe x1 x2.

Assume H6: SNoLe x3 x4.

Assume H7: mul_SNo 2 x0 = add_SNo ((λ x5 . mul_SNo x5 x5) x1) (add_SNo ((λ x5 . mul_SNo x5 x5) x2) (add_SNo ((λ x5 . mul_SNo x5 x5) x3) ((λ x5 . mul_SNo x5 x5) x4))).

Let x5 of type ο be given.

Assume H8: ∀ x6 . x6 ∈ omega ⟶ ∀ x7 . x7 ∈ omega ⟶ ∀ x8 . x8 ∈ omega ⟶ ∀ x9 . x9 ∈ omega ⟶ x0 = add_SNo ((λ x10 . mul_SNo x10 x10) x6) (add_SNo ((λ x10 . mul_SNo x10 x10) x7) (add_SNo ((λ x10 . mul_SNo x10 x10) x8) ((λ x10 . mul_SNo x10 x10) x9))) ⟶ x5.

Claim L9: ...

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Claim L10: ...

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Claim L11: ...

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Claim L12: ...

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Claim L13: ...

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Apply unknownprop_0b973640ded967ccca7ae90b9a0ad1cbab8b72d7d8e77d5564f2ebb33a0b2952 with x2, x1, x5 leaving 3 subgoals.

The subproof is completed by applying H2.

The subproof is completed by applying H1.

Assume H14: add_SNo x2 x1 ∈ omega.

Assume H15: ∃ x6 . and (x6 ∈ omega) (add_SNo x2 x1 = mul_nat 2 x6).

Apply H15 with x5.

Let x6 of type ι be given.

Assume H16: (λ x7 . and (x7 ∈ omega) (add_SNo x2 x1 = mul_nat 2 x7)) x6.

Apply H16 with x5.

Assume H17: x6 ∈ omega.

Apply mul_nat_mul_SNo with 2, x6, λ x7 x8 . add_SNo x2 x1 = x8 ⟶ x5 leaving 3 subgoals.

Apply nat_p_omega with 2.

The subproof is completed by applying nat_2.

The subproof is completed by applying H17.

Assume H18: add_SNo x2 x1 = mul_SNo 2 x6.

Apply unknownprop_b904ca8f031fe3500fb61ac5d204ed355ea35cee98fb2afe49bf33c64a4c7f22 with x1, x2, x5 leaving 4 subgoals.

The subproof is completed by applying H1.

The subproof is completed by applying H2.

The subproof is completed by applying H5.

Assume H19: add_SNo x2 (minus_SNo x1) ∈ omega.

Assume H20: ∃ x7 . and (x7 ∈ omega) (add_SNo x2 (minus_SNo x1) = mul_nat 2 x7).

Apply H20 with x5.

Let x7 of type ι be given.

Assume H21: (λ x8 . and (x8 ∈ omega) (add_SNo x2 (minus_SNo x1) = mul_nat 2 x8)) x7.

Apply H21 with x5.

Assume H22: x7 ∈ omega.

Apply mul_nat_mul_SNo with 2, x7, λ x8 x9 . add_SNo x2 (minus_SNo x1) = x9 ⟶ x5 leaving 3 subgoals.

Apply nat_p_omega with 2.

The subproof is completed by applying nat_2.

The subproof is completed by applying H22.

Assume H23: add_SNo x2 (minus_SNo x1) = mul_SNo 2 x7.

Apply unknownprop_c660652420e176d4faa9e40cbf319f5b2543af975406e33bef9c006165df1140 with x4, x3, x5 leaving 3 subgoals.

The subproof is completed by applying H4.

The subproof is completed by applying H3.

Assume H24: add_SNo x4 x3 ∈ omega.

Assume H25: ∃ x8 . and (x8 ∈ omega) (add_SNo x4 x3 = mul_nat 2 x8).

Apply H25 with x5.

Let x8 of type ι be given.

Assume H26: (λ x9 . and (x9 ∈ omega) (add_SNo x4 x3 = mul_nat 2 x9)) x8.

Apply H26 with x5.

Assume H27: x8 ∈ omega.

Apply mul_nat_mul_SNo with 2, x8, λ x9 x10 . add_SNo x4 x3 = x10 ⟶ x5 leaving 3 subgoals.

Apply nat_p_omega with 2.

The subproof is completed by applying nat_2.

The subproof is completed by applying H27.

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Proofgold Proof