lean4-htt/tests/elab/grind_pre.lean
Garmelon 08eb78a5b2
chore: switch to new test/bench suite (#12590)
This PR sets up the new integrated test/bench suite. It then migrates
all benchmarks and some related tests to the new suite. There's also
some documentation and some linting.

For now, a lot of the old tests are left alone so this PR doesn't become
even larger than it already is. Eventually, all tests should be migrated
to the new suite though so there isn't a confusing mix of two systems.
2026-02-25 13:51:53 +00:00

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module
abbrev f (a : α) := a
set_option grind.debug true
set_option grind.debug.proofs true
/--
error: `grind` failed
case grind
a b c : Bool
p q : Prop
h : (f a && (b || f (f c))) = true
h' : p ∧ q
h_1 : (b && a) = false
⊢ False
[grind] Goal diagnostics
[facts] Asserted facts
[prop] a = true ∧ (b = true c = true)
[prop] p ∧ q
[prop] (b && a) = false
[eqc] True propositions
[prop] p
[prop] q
[prop] p ∧ q
[prop] a = true ∧ (b = true c = true)
[prop] b = true c = true
[prop] a = true
[prop] c = true
[eqc] False propositions
[prop] b = true
[eqc] Equivalence classes
[eqc] {a, c, true}
[eqc] {b, false, b && a}
[assoc] Operator `and`
[basis] Basis
[_] a = true
[diseqs] Disequalities
[_] b ≠ true
[properties] Properties
[_] commutative
[_] idempotent
[_] identity: `true`
-/
#guard_msgs (error) in
theorem ex (h : (f a && (b || f (f c))) = true) (h' : p ∧ q) : b && a := by
grind
section
attribute [local grind cases eager] Or
/--
error: `grind` failed
case grind
a b c : Bool
p q : Prop
h : (f a && (b || f (f c))) = true
h' : p ∧ q
h_1 : (b && a) = false
⊢ False
[grind] Goal diagnostics
[facts] Asserted facts
[prop] a = true ∧ (b = true c = true)
[prop] p ∧ q
[prop] (b && a) = false
[eqc] True propositions
[prop] p
[prop] q
[prop] p ∧ q
[prop] a = true ∧ (b = true c = true)
[prop] b = true c = true
[prop] a = true
[prop] c = true
[eqc] False propositions
[prop] b = true
[eqc] Equivalence classes
[eqc] {a, c, true}
[eqc] {b, false, b && a}
[assoc] Operator `and`
[basis] Basis
[_] a = true
[diseqs] Disequalities
[_] b ≠ true
[properties] Properties
[_] commutative
[_] idempotent
[_] identity: `true`
-/
#guard_msgs (error) in
theorem ex2 (h : (f a && (b || f (f c))) = true) (h' : p ∧ q) : b && a := by
grind
end
def g (i : Nat) (j : Nat) (_ : i > j := by omega) := i + j
structure Point where
x : Nat
y : Int
/--
error: `grind` failed
case grind
a₁ : Point
a₂ : Nat
a₃ : Int
as : List Point
b₁ : Point
bs : List Point
b₂ : Nat
b₃ : Int
h : a₁ :: { x := a₂, y := a₃ } :: as = b₁ :: { x := b₂, y := b₃ } :: bs
⊢ False
[grind] Goal diagnostics
[facts] Asserted facts
[prop] a₁ :: { x := a₂, y := a₃ } :: as = b₁ :: { x := b₂, y := b₃ } :: bs
[eqc] Equivalence classes
[eqc] {a₁, b₁}
[eqc] {a₂, b₂}
[eqc] {a₃, b₃}
[eqc] {as, bs}
[eqc] {{ x := a₂, y := a₃ }, { x := b₂, y := b₃ }}
[eqc] {a₁ :: { x := a₂, y := a₃ } :: as, b₁ :: { x := b₂, y := b₃ } :: bs}
[eqc] {{ x := a₂, y := a₃ } :: as, { x := b₂, y := b₃ } :: bs}
-/
#guard_msgs (error) in
theorem ex3 (h : a₁ :: { x := a₂, y := a₃ : Point } :: as = b₁ :: { x := b₂, y := b₃} :: bs) : False := by
grind
def h (a : α) := a
example (p : Prop) (a b c : Nat) : p → a = 0 → a = b → h a = h c → a = c ∧ c = a → a = b ∧ b = a → a = c := by
grind
set_option trace.grind.debug.proof true
/--
error: `grind` failed
case grind.1
α : Type
a : α
p q r : Prop
h₁ : p ≍ a
h₂ : q ≍ a
h₃ : p = r
left : p
right : r
⊢ False
[grind] Goal diagnostics
[facts] Asserted facts
[prop] p ≍ a
[prop] q ≍ a
[prop] p = r
[prop] p
[prop] r
[eqc] True propositions
[prop] a
[prop] p
[prop] q
[prop] r
[prop] p = r
[cases] Case analyses
[cases] [1/2]: p = r
[cases] source: Initial goal
-/
#guard_msgs (error) in
example (a : α) (p q r : Prop) : (h₁ : p ≍ a) → (h₂ : q ≍ a) → (h₃ : p = r) → False := by
grind
example (a b : Nat) (f : Nat → Nat) : (h₁ : a = b) → (h₂ : f a ≠ f b) → False := by
grind
example (a : α) (p q r : Prop) : (h₁ : p ≍ a) → (h₂ : q ≍ a) → (h₃ : p = r) → q = r := by
grind
/--
trace: [grind.issues] found congruence between
g b
and
f a
but functions have different types
-/
#guard_msgs (trace) in
set_option trace.grind.issues true in
set_option trace.grind.debug.proof false in
example (f : Nat → Bool) (g : Int → Bool) (a : Nat) (b : Int) : f ≍ g → a ≍ b → f a = g b := by
fail_if_success grind
sorry
/--
error: `grind` failed
case grind
f : Nat → Bool
g : Int → Bool
a : Nat
b : Int
h : f ≍ g
h_1 : a ≍ b
h_2 : ¬f a = g b
⊢ False
[grind] Goal diagnostics
[facts] Asserted facts
[prop] f ≍ g
[prop] a ≍ b
[prop] ¬f a = g b
[eqc] False propositions
[prop] f a = g b
[eqc] Equivalence classes
[eqc] {f, g}
[eqc] {a, b}
[grind] Issues
[issue] found congruence between
g b
and
f a
but functions have different types
-/
#guard_msgs (error) in
example (f : Nat → Bool) (g : Int → Bool) (a : Nat) (b : Int) : f ≍ g → a ≍ b → f a = g b := by
grind