diff options
Diffstat (limited to '')
-rw-r--r-- | tests/lean/Hashmap/Properties.lean | 58 |
1 files changed, 40 insertions, 18 deletions
diff --git a/tests/lean/Hashmap/Properties.lean b/tests/lean/Hashmap/Properties.lean index 92285c0d..40b5009d 100644 --- a/tests/lean/Hashmap/Properties.lean +++ b/tests/lean/Hashmap/Properties.lean @@ -263,11 +263,6 @@ def lookup (hm : HashMap α) (k : Usize) : Option α := @[simp] abbrev len_s (hm : HashMap α) : Int := hm.al_v.len -set_option trace.Progress true -/-set_option pp.explicit true -set_option pp.universes true -set_option pp.notation false -/ - -- Remark: α and β must live in the same universe, otherwise the -- bind doesn't work theorem if_update_eq @@ -297,7 +292,12 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value -- TODO: progress keep as ⟨ ... ⟩ : conflict progress keep as h as ⟨ hash_mod, hhm ⟩ have _ : 0 ≤ hash_mod.val := by checkpoint scalar_tac - have _ : hash_mod.val < Vec.length hm.slots := by sorry + have _ : hash_mod.val < Vec.length hm.slots := by + have : 0 < hm.slots.val.len := by + simp [inv] at hinv + simp [hinv] + -- TODO: we want to automate that + simp [*, Int.emod_lt_of_pos] -- have h := Primitives.Vec.index_mut_spec hm.slots hash_mod -- TODO: change the spec of Vec.index_mut to introduce a let-binding. -- or: make progress introduce the let-binding by itself (this is clearer) @@ -309,11 +309,26 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value have hipost : ∃ i0, (if inserted = true then hm.num_entries + Usize.ofInt 1 else pure hm.num_entries) = ret i0 ∧ i0.val = if inserted then hm.num_entries.val + 1 else hm.num_entries.val - := by sorry + := by + if inserted then + simp [*] + have : hm.num_entries.val + (Usize.ofInt 1).val ≤ Usize.max := by + simp [lookup] at hnsat + simp_all + simp [inv] at hinv + int_tac + progress + simp_all + else + simp_all [Pure.pure] progress as ⟨ i0 ⟩ -- TODO: progress "eager" to match premises with assumptions while instantiating -- meta-variables - have h_slot : slot_s_inv_hash hm.slots.length hash_mod.val (hm.slots.v.index hash_mod.val).v := by sorry + have h_slot : slot_s_inv_hash hm.slots.length hash_mod.val (hm.slots.v.index hash_mod.val).v := by + simp [inv] at hinv + have h := hinv.right.left hash_mod.val (by assumption) (by assumption) + simp [slot_t_inv] at h + simp [h] have hd : distinct_keys (hm.slots.v.index hash_mod.val).v := by checkpoint simp [inv, slots_t_inv, slot_t_inv] at hinv have h := hinv.right.left hash_mod.val (by assumption) (by assumption) @@ -329,10 +344,11 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value -- TODO: update progress to automate that let nhm : HashMap α := { num_entries := i0, max_load_factor := hm.max_load_factor, max_load := hm.max_load, slots := v } exists nhm + -- TODO: later I don't want to inline nhm - we need to control simp have hupdt : lookup nhm key = some value := by checkpoint simp [lookup, List.lookup] at * simp_all - have hlkp : ∀ k, ¬ k = key → nhm.lookup k = hm.lookup k := by checkpoint + have hlkp : ∀ k, ¬ k = key → nhm.lookup k = hm.lookup k := by simp [lookup, List.lookup] at * intro k hk -- We have to make a case disjunction: either the hashes are different, @@ -340,8 +356,19 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value -- are the same, in which case we have to reason about what happens -- in one slot let k_hash_mod := k.val % v.val.len - have _ : 0 ≤ k_hash_mod := by sorry - have _ : k_hash_mod < Vec.length hm.slots := by sorry + have : 0 < hm.slots.val.len := by simp_all [inv] + have hvpos : 0 < v.val.len := by simp_all + have hvnz: v.val.len ≠ 0 := by + simp_all + have _ : 0 ≤ k_hash_mod := by + -- TODO: we want to automate this + simp + apply Int.emod_nonneg k.val hvnz + have _ : k_hash_mod < Vec.length hm.slots := by + -- TODO: we want to automate this + simp + have h := Int.emod_lt_of_pos k.val hvpos + simp_all if h_hm : k_hash_mod = hash_mod.val then simp_all else @@ -377,18 +404,13 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value simp_all [lookup] . simp [slots_t_inv, slot_t_inv] at * intro i hipos _ - have hs := hinv.right.left i hipos (by simp_all) + have _ := hinv.right.left i hipos (by simp_all) -- We need a case disjunction if i = key.val % _root_.List.len hm.slots.val then simp_all else simp_all - . match h: lookup hm key with - | none => - simp [h] at * - simp [*] - | some _ => - simp_all + . simp_all simp_all end HashMap |