lean4-htt/tests/lean/run/wfEqns5.lean
Joachim Breitner b2ed6ac939
refactor: WF: add eq_def theorem for ._unary (#8063)
This PR adds an `foo._unary.eq_def` theorem, so that unfolding
`foo._unary` works as expected. This will help with #8019.
2025-04-24 09:59:08 +00:00

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def foo : Nat → Nat → Nat
| 0, m => match m with | 0 => 0 | m => m
| n+1, m => foo n m
termination_by n => n
/--
info: equations:
theorem foo.eq_1 : foo 0 0 = 0
theorem foo.eq_2 : ∀ (x : Nat), (x = 0 → False) → foo 0 x = x
theorem foo.eq_3 : ∀ (x n : Nat), foo n.succ x = foo n x
-/
#guard_msgs in
#print equations foo
/--
info: foo.eq_def (x✝ x✝¹ : Nat) :
foo x✝ x✝¹ =
match x✝, x✝¹ with
| 0, m =>
match m with
| 0 => 0
| m => m
| n.succ, m => foo n m
-/
#guard_msgs in
#check foo.eq_def
/-- error: unknown identifier 'foo.eq_4' -/
#guard_msgs in
#check foo.eq_4
/--
info: foo._unary.eq_def (_x : (_ : Nat) ×' Nat) :
foo._unary _x =
PSigma.casesOn _x fun a a_1 =>
match a, a_1 with
| 0, m =>
match m with
| 0 => 0
| m => m
| n.succ, m => foo._unary ⟨n, m⟩
-/
#guard_msgs in
#check foo._unary.eq_def
set_option backward.eqns.deepRecursiveSplit false in
def bar : Nat → Nat → Nat
| 0, m => match m with | 0 => 0 | m => m
| n+1, m => bar n m
termination_by n => n
/--
info: equations:
theorem bar.eq_1 : ∀ (x : Nat),
bar 0 x =
match x with
| 0 => 0
| m => m
theorem bar.eq_2 : ∀ (x n : Nat), bar n.succ x = bar n x
-/
#guard_msgs in
#print equations bar
/--
info: bar.eq_def (x✝ x✝¹ : Nat) :
bar x✝ x✝¹ =
match x✝, x✝¹ with
| 0, m =>
match m with
| 0 => 0
| m => m
| n.succ, m => bar n m
-/
#guard_msgs in
#check bar.eq_def
-- Now the same for structural recursion
namespace Structural
def foo : Nat → Nat → Nat
| 0, m => match m with | 0 => 0 | m => m
| n+1, m => foo n m
termination_by structural n => n
/--
info: equations:
theorem Structural.foo.eq_1 : foo 0 0 = 0
theorem Structural.foo.eq_2 : ∀ (x : Nat), (x = 0 → False) → foo 0 x = x
theorem Structural.foo.eq_3 : ∀ (x n : Nat), foo n.succ x = foo n x
-/
#guard_msgs in
#print equations foo
/--
info: Structural.foo.eq_def (x✝ x✝¹ : Nat) :
foo x✝ x✝¹ =
match x✝, x✝¹ with
| 0, m =>
match m with
| 0 => 0
| m => m
| n.succ, m => foo n m
-/
#guard_msgs in
#check foo.eq_def
/-- error: unknown identifier 'foo.eq_4' -/
#guard_msgs in
#check Structural.foo.eq_4
set_option backward.eqns.deepRecursiveSplit false in
def bar : Nat → Nat → Nat
| 0, m => match m with | 0 => 0 | m => m
| n+1, m => bar n m
termination_by n => n
/--
info: equations:
theorem Structural.bar.eq_1 : ∀ (x : Nat),
bar 0 x =
match x with
| 0 => 0
| m => m
theorem Structural.bar.eq_2 : ∀ (x n : Nat), bar n.succ x = bar n x
-/
#guard_msgs in
#print equations bar
/--
info: Structural.bar.eq_def (x✝ x✝¹ : Nat) :
bar x✝ x✝¹ =
match x✝, x✝¹ with
| 0, m =>
match m with
| 0 => 0
| m => m
| n.succ, m => bar n m
-/
#guard_msgs in
#check bar.eq_def
end Structural