diff options
author | Son Ho | 2023-07-25 20:12:48 +0200 |
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committer | Son Ho | 2023-07-25 20:12:48 +0200 |
commit | 9e8fccbe4b667fc341b6544030f85af05fe89307 (patch) | |
tree | b1cf6d4a1cdc8ce61417cf3778f9c42435d2a201 /backends | |
parent | 0cc3c78137434d848188eee2a66b1e2cacfd102e (diff) |
Make progress on the proofs of the hashmap
Diffstat (limited to 'backends')
-rw-r--r-- | backends/lean/Base/Primitives/Scalar.lean | 47 |
1 files changed, 43 insertions, 4 deletions
diff --git a/backends/lean/Base/Primitives/Scalar.lean b/backends/lean/Base/Primitives/Scalar.lean index 3beb7527..2e5be8bf 100644 --- a/backends/lean/Base/Primitives/Scalar.lean +++ b/backends/lean/Base/Primitives/Scalar.lean @@ -660,10 +660,8 @@ theorem Scalar.rem_unsigned_spec {ty} (s: ¬ ty.isSigned) (x : Scalar ty) {y : S simp [h] at hx hy have hmin : 0 ≤ x.val % y.val := Int.emod_nonneg x.val hnz have hmax : x.val % y.val ≤ Scalar.max ty := by - have h := @Int.ediv_emod_unique x.val y.val (x.val % y.val) (x.val / y.val) - simp at h - have : 0 < y.val := by int_tac - simp [*] at h + have h : 0 < y.val := by int_tac + have h := Int.emod_lt_of_pos x.val h have := y.hmax linarith have hs := @rem_spec ty x y hnz @@ -724,6 +722,47 @@ def U32.ofInt := @Scalar.ofInt .U32 def U64.ofInt := @Scalar.ofInt .U64 def U128.ofInt := @Scalar.ofInt .U128 +-- TODO: factor those lemmas out +@[simp] theorem Scalar.ofInt_val_eq {ty} (h : Scalar.min ty ≤ x ∧ x ≤ Scalar.max ty) : (Scalar.ofInt x h).val = x := by + simp [Scalar.ofInt, Scalar.ofIntCore] + +@[simp] theorem Isize.ofInt_val_eq (h : Scalar.min ScalarTy.Isize ≤ x ∧ x ≤ Scalar.max ScalarTy.Isize) : (Isize.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem I8.ofInt_val_eq (h : Scalar.min ScalarTy.I8 ≤ x ∧ x ≤ Scalar.max ScalarTy.I8) : (I8.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem I16.ofInt_val_eq (h : Scalar.min ScalarTy.I16 ≤ x ∧ x ≤ Scalar.max ScalarTy.I16) : (I16.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem I32.ofInt_val_eq (h : Scalar.min ScalarTy.I32 ≤ x ∧ x ≤ Scalar.max ScalarTy.I32) : (I32.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem I64.ofInt_val_eq (h : Scalar.min ScalarTy.I64 ≤ x ∧ x ≤ Scalar.max ScalarTy.I64) : (I64.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem I128.ofInt_val_eq (h : Scalar.min ScalarTy.I128 ≤ x ∧ x ≤ Scalar.max ScalarTy.I128) : (I128.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem Usize.ofInt_val_eq (h : Scalar.min ScalarTy.Usize ≤ x ∧ x ≤ Scalar.max ScalarTy.Usize) : (Usize.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem U8.ofInt_val_eq (h : Scalar.min ScalarTy.U8 ≤ x ∧ x ≤ Scalar.max ScalarTy.U8) : (U8.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem U16.ofInt_val_eq (h : Scalar.min ScalarTy.U16 ≤ x ∧ x ≤ Scalar.max ScalarTy.U16) : (U16.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem U32.ofInt_val_eq (h : Scalar.min ScalarTy.U32 ≤ x ∧ x ≤ Scalar.max ScalarTy.U32) : (U32.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem U64.ofInt_val_eq (h : Scalar.min ScalarTy.U64 ≤ x ∧ x ≤ Scalar.max ScalarTy.U64) : (U64.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + +@[simp] theorem U128.ofInt_val_eq (h : Scalar.min ScalarTy.U128 ≤ x ∧ x ≤ Scalar.max ScalarTy.U128) : (U128.ofInt x h).val = x := by + apply Scalar.ofInt_val_eq h + + -- Comparisons instance {ty} : LT (Scalar ty) where lt a b := LT.lt a.val b.val |