diff options
Diffstat (limited to 'tests/lean')
-rw-r--r-- | tests/lean/Array.lean | 436 | ||||
-rw-r--r-- | tests/lean/Array/Funs.lean | 360 | ||||
-rw-r--r-- | tests/lean/Array/Types.lean | 8 | ||||
-rw-r--r-- | tests/lean/BetreeMain/Funs.lean | 88 | ||||
-rw-r--r-- | tests/lean/Constants.lean | 43 | ||||
-rw-r--r-- | tests/lean/External/Funs.lean | 16 | ||||
-rw-r--r-- | tests/lean/Hashmap/Funs.lean | 223 | ||||
-rw-r--r-- | tests/lean/Hashmap/Properties.lean | 17 | ||||
-rw-r--r-- | tests/lean/Hashmap/Types.lean | 2 | ||||
-rw-r--r-- | tests/lean/HashmapMain/Funs.lean | 232 | ||||
-rw-r--r-- | tests/lean/HashmapMain/Types.lean | 2 | ||||
-rw-r--r-- | tests/lean/Loops.lean | 630 | ||||
-rw-r--r-- | tests/lean/Loops/Funs.lean | 612 | ||||
-rw-r--r-- | tests/lean/Loops/Types.lean | 13 | ||||
-rw-r--r-- | tests/lean/NoNestedBorrows.lean | 158 | ||||
-rw-r--r-- | tests/lean/Paper.lean | 48 | ||||
-rw-r--r-- | tests/lean/Traits.lean | 383 | ||||
-rw-r--r-- | tests/lean/lakefile.lean | 1 |
18 files changed, 2060 insertions, 1212 deletions
diff --git a/tests/lean/Array.lean b/tests/lean/Array.lean index 277b63d9..20f02e97 100644 --- a/tests/lean/Array.lean +++ b/tests/lean/Array.lean @@ -1 +1,435 @@ -import Array.Funs +-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS +-- [array] +import Base +open Primitives + +namespace array + +/- [array::AB] -/ +inductive AB := +| A : AB +| B : AB + +/- [array::incr]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def incr (x : U32) : Result U32 := + x + 1#u32 + +/- [array::array_to_shared_slice_]: forward function -/ +def array_to_shared_slice_ + (T : Type) (s : Array T 32#usize) : Result (Slice T) := + Array.to_slice T 32#usize s + +/- [array::array_to_mut_slice_]: forward function -/ +def array_to_mut_slice_ (T : Type) (s : Array T 32#usize) : Result (Slice T) := + Array.to_slice T 32#usize s + +/- [array::array_to_mut_slice_]: backward function 0 -/ +def array_to_mut_slice__back + (T : Type) (s : Array T 32#usize) (ret0 : Slice T) : + Result (Array T 32#usize) + := + Array.from_slice T 32#usize s ret0 + +/- [array::array_len]: forward function -/ +def array_len (T : Type) (s : Array T 32#usize) : Result Usize := + do + let s0 ← Array.to_slice T 32#usize s + let i := Slice.len T s0 + Result.ret i + +/- [array::shared_array_len]: forward function -/ +def shared_array_len (T : Type) (s : Array T 32#usize) : Result Usize := + do + let s0 ← Array.to_slice T 32#usize s + let i := Slice.len T s0 + Result.ret i + +/- [array::shared_slice_len]: forward function -/ +def shared_slice_len (T : Type) (s : Slice T) : Result Usize := + let i := Slice.len T s + Result.ret i + +/- [array::index_array_shared]: forward function -/ +def index_array_shared + (T : Type) (s : Array T 32#usize) (i : Usize) : Result T := + Array.index_usize T 32#usize s i + +/- [array::index_array_u32]: forward function -/ +def index_array_u32 (s : Array U32 32#usize) (i : Usize) : Result U32 := + Array.index_usize U32 32#usize s i + +/- [array::index_array_copy]: forward function -/ +def index_array_copy (x : Array U32 32#usize) : Result U32 := + Array.index_usize U32 32#usize x 0#usize + +/- [array::index_mut_array]: forward function -/ +def index_mut_array (T : Type) (s : Array T 32#usize) (i : Usize) : Result T := + Array.index_usize T 32#usize s i + +/- [array::index_mut_array]: backward function 0 -/ +def index_mut_array_back + (T : Type) (s : Array T 32#usize) (i : Usize) (ret0 : T) : + Result (Array T 32#usize) + := + Array.update_usize T 32#usize s i ret0 + +/- [array::index_slice]: forward function -/ +def index_slice (T : Type) (s : Slice T) (i : Usize) : Result T := + Slice.index_usize T s i + +/- [array::index_mut_slice]: forward function -/ +def index_mut_slice (T : Type) (s : Slice T) (i : Usize) : Result T := + Slice.index_usize T s i + +/- [array::index_mut_slice]: backward function 0 -/ +def index_mut_slice_back + (T : Type) (s : Slice T) (i : Usize) (ret0 : T) : Result (Slice T) := + Slice.update_usize T s i ret0 + +/- [array::slice_subslice_shared_]: forward function -/ +def slice_subslice_shared_ + (x : Slice U32) (y : Usize) (z : Usize) : Result (Slice U32) := + core.slice.index.Slice.index U32 (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32) x + { start := y, end_ := z } + +/- [array::slice_subslice_mut_]: forward function -/ +def slice_subslice_mut_ + (x : Slice U32) (y : Usize) (z : Usize) : Result (Slice U32) := + core.slice.index.Slice.index_mut U32 (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32) x + { start := y, end_ := z } + +/- [array::slice_subslice_mut_]: backward function 0 -/ +def slice_subslice_mut__back + (x : Slice U32) (y : Usize) (z : Usize) (ret0 : Slice U32) : + Result (Slice U32) + := + core.slice.index.Slice.index_mut_back U32 (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32) x + { start := y, end_ := z } ret0 + +/- [array::array_to_slice_shared_]: forward function -/ +def array_to_slice_shared_ (x : Array U32 32#usize) : Result (Slice U32) := + Array.to_slice U32 32#usize x + +/- [array::array_to_slice_mut_]: forward function -/ +def array_to_slice_mut_ (x : Array U32 32#usize) : Result (Slice U32) := + Array.to_slice U32 32#usize x + +/- [array::array_to_slice_mut_]: backward function 0 -/ +def array_to_slice_mut__back + (x : Array U32 32#usize) (ret0 : Slice U32) : Result (Array U32 32#usize) := + Array.from_slice U32 32#usize x ret0 + +/- [array::array_subslice_shared_]: forward function -/ +def array_subslice_shared_ + (x : Array U32 32#usize) (y : Usize) (z : Usize) : Result (Slice U32) := + core.array.Array.index U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } + +/- [array::array_subslice_mut_]: forward function -/ +def array_subslice_mut_ + (x : Array U32 32#usize) (y : Usize) (z : Usize) : Result (Slice U32) := + core.array.Array.index_mut U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } + +/- [array::array_subslice_mut_]: backward function 0 -/ +def array_subslice_mut__back + (x : Array U32 32#usize) (y : Usize) (z : Usize) (ret0 : Slice U32) : + Result (Array U32 32#usize) + := + core.array.Array.index_mut_back U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } ret0 + +/- [array::index_slice_0]: forward function -/ +def index_slice_0 (T : Type) (s : Slice T) : Result T := + Slice.index_usize T s 0#usize + +/- [array::index_array_0]: forward function -/ +def index_array_0 (T : Type) (s : Array T 32#usize) : Result T := + Array.index_usize T 32#usize s 0#usize + +/- [array::index_index_array]: forward function -/ +def index_index_array + (s : Array (Array U32 32#usize) 32#usize) (i : Usize) (j : Usize) : + Result U32 + := + do + let a ← Array.index_usize (Array U32 32#usize) 32#usize s i + Array.index_usize U32 32#usize a j + +/- [array::update_update_array]: forward function -/ +def update_update_array + (s : Array (Array U32 32#usize) 32#usize) (i : Usize) (j : Usize) : + Result Unit + := + do + let a ← Array.index_usize (Array U32 32#usize) 32#usize s i + let a0 ← Array.update_usize U32 32#usize a j 0#u32 + let _ ← Array.update_usize (Array U32 32#usize) 32#usize s i a0 + Result.ret () + +/- [array::array_local_deep_copy]: forward function -/ +def array_local_deep_copy (x : Array U32 32#usize) : Result Unit := + Result.ret () + +/- [array::take_array]: forward function -/ +def take_array (a : Array U32 2#usize) : Result Unit := + Result.ret () + +/- [array::take_array_borrow]: forward function -/ +def take_array_borrow (a : Array U32 2#usize) : Result Unit := + Result.ret () + +/- [array::take_slice]: forward function -/ +def take_slice (s : Slice U32) : Result Unit := + Result.ret () + +/- [array::take_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def take_mut_slice (s : Slice U32) : Result (Slice U32) := + Result.ret s + +/- [array::take_all]: forward function -/ +def take_all : Result Unit := + do + let _ ← take_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let _ ← take_array_borrow (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let s ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let _ ← take_slice s + let s0 ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let s1 ← take_mut_slice s0 + let _ ← + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s1 + Result.ret () + +/- [array::index_array]: forward function -/ +def index_array (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize + +/- [array::index_array_borrow]: forward function -/ +def index_array_borrow (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize + +/- [array::index_slice_u32_0]: forward function -/ +def index_slice_u32_0 (x : Slice U32) : Result U32 := + Slice.index_usize U32 x 0#usize + +/- [array::index_mut_slice_u32_0]: forward function -/ +def index_mut_slice_u32_0 (x : Slice U32) : Result U32 := + Slice.index_usize U32 x 0#usize + +/- [array::index_mut_slice_u32_0]: backward function 0 -/ +def index_mut_slice_u32_0_back (x : Slice U32) : Result (Slice U32) := + do + let _ ← Slice.index_usize U32 x 0#usize + Result.ret x + +/- [array::index_all]: forward function -/ +def index_all : Result U32 := + do + let i ← index_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let i0 ← index_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let i1 ← i + i0 + let i2 ← index_array_borrow (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let i3 ← i1 + i2 + let s ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let i4 ← index_slice_u32_0 s + let i5 ← i3 + i4 + let s0 ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let i6 ← index_mut_slice_u32_0 s0 + let i7 ← i5 + i6 + let s1 ← index_mut_slice_u32_0_back s0 + let _ ← + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s1 + Result.ret i7 + +/- [array::update_array]: forward function -/ +def update_array (x : Array U32 2#usize) : Result Unit := + do + let _ ← Array.update_usize U32 2#usize x 0#usize 1#u32 + Result.ret () + +/- [array::update_array_mut_borrow]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def update_array_mut_borrow + (x : Array U32 2#usize) : Result (Array U32 2#usize) := + Array.update_usize U32 2#usize x 0#usize 1#u32 + +/- [array::update_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def update_mut_slice (x : Slice U32) : Result (Slice U32) := + Slice.update_usize U32 x 0#usize 1#u32 + +/- [array::update_all]: forward function -/ +def update_all : Result Unit := + do + let _ ← update_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let x ← update_array_mut_borrow (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let s ← Array.to_slice U32 2#usize x + let s0 ← update_mut_slice s + let _ ← Array.from_slice U32 2#usize x s0 + Result.ret () + +/- [array::range_all]: forward function -/ +def range_all : Result Unit := + do + let s ← + core.array.Array.index_mut U32 (core.ops.range.Range Usize) 4#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 + (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32)) + (Array.make U32 4#usize [ 0#u32, 0#u32, 0#u32, 0#u32 ]) + { start := 1#usize, end_ := 3#usize } + let s0 ← update_mut_slice s + let _ ← + core.array.Array.index_mut_back U32 (core.ops.range.Range Usize) 4#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 + (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32)) + (Array.make U32 4#usize [ 0#u32, 0#u32, 0#u32, 0#u32 ]) + { start := 1#usize, end_ := 3#usize } s0 + Result.ret () + +/- [array::deref_array_borrow]: forward function -/ +def deref_array_borrow (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize + +/- [array::deref_array_mut_borrow]: forward function -/ +def deref_array_mut_borrow (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize + +/- [array::deref_array_mut_borrow]: backward function 0 -/ +def deref_array_mut_borrow_back + (x : Array U32 2#usize) : Result (Array U32 2#usize) := + do + let _ ← Array.index_usize U32 2#usize x 0#usize + Result.ret x + +/- [array::take_array_t]: forward function -/ +def take_array_t (a : Array AB 2#usize) : Result Unit := + Result.ret () + +/- [array::non_copyable_array]: forward function -/ +def non_copyable_array : Result Unit := + do + let _ ← take_array_t (Array.make AB 2#usize [ AB.A, AB.B ]) + Result.ret () + +/- [array::sum]: loop 0: forward function -/ +divergent def sum_loop (s : Slice U32) (sum0 : U32) (i : Usize) : Result U32 := + let i0 := Slice.len U32 s + if i < i0 + then + do + let i1 ← Slice.index_usize U32 s i + let sum1 ← sum0 + i1 + let i2 ← i + 1#usize + sum_loop s sum1 i2 + else Result.ret sum0 + +/- [array::sum]: forward function -/ +def sum (s : Slice U32) : Result U32 := + sum_loop s 0#u32 0#usize + +/- [array::sum2]: loop 0: forward function -/ +divergent def sum2_loop + (s : Slice U32) (s2 : Slice U32) (sum0 : U32) (i : Usize) : Result U32 := + let i0 := Slice.len U32 s + if i < i0 + then + do + let i1 ← Slice.index_usize U32 s i + let i2 ← Slice.index_usize U32 s2 i + let i3 ← i1 + i2 + let sum1 ← sum0 + i3 + let i4 ← i + 1#usize + sum2_loop s s2 sum1 i4 + else Result.ret sum0 + +/- [array::sum2]: forward function -/ +def sum2 (s : Slice U32) (s2 : Slice U32) : Result U32 := + let i := Slice.len U32 s + let i0 := Slice.len U32 s2 + if not (i = i0) + then Result.fail Error.panic + else sum2_loop s s2 0#u32 0#usize + +/- [array::f0]: forward function -/ +def f0 : Result Unit := + do + let s ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + let s0 ← Slice.update_usize U32 s 0#usize 1#u32 + let _ ← + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) s0 + Result.ret () + +/- [array::f1]: forward function -/ +def f1 : Result Unit := + do + let _ ← + Array.update_usize U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + 0#usize 1#u32 + Result.ret () + +/- [array::f2]: forward function -/ +def f2 (i : U32) : Result Unit := + Result.ret () + +/- [array::f4]: forward function -/ +def f4 (x : Array U32 32#usize) (y : Usize) (z : Usize) : Result (Slice U32) := + core.array.Array.index U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } + +/- [array::f3]: forward function -/ +def f3 : Result U32 := + do + let i ← + Array.index_usize U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + 0#usize + let _ ← f2 i + let b := Array.repeat U32 32#usize 0#u32 + let s ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + let s0 ← f4 b 16#usize 18#usize + sum2 s s0 + +/- [array::SZ] -/ +def sz_body : Result Usize := Result.ret 32#usize +def sz_c : Usize := eval_global sz_body (by simp) + +/- [array::f5]: forward function -/ +def f5 (x : Array U32 32#usize) : Result U32 := + Array.index_usize U32 32#usize x 0#usize + +/- [array::ite]: forward function -/ +def ite : Result Unit := + do + let s ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let s0 ← + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let s1 ← index_mut_slice_u32_0_back s0 + let _ ← + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s1 + let s2 ← index_mut_slice_u32_0_back s + let _ ← + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s2 + Result.ret () + +end array diff --git a/tests/lean/Array/Funs.lean b/tests/lean/Array/Funs.lean index ad737dca..32ae6248 100644 --- a/tests/lean/Array/Funs.lean +++ b/tests/lean/Array/Funs.lean @@ -6,189 +6,183 @@ open Primitives namespace array +/- [array::incr]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def incr (x : U32) : Result U32 := + x + 1#u32 + /- [array::array_to_shared_slice_]: forward function -/ def array_to_shared_slice_ - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result (Slice T0) := - Array.to_slice_shared T0 (Usize.ofInt 32) s + (T : Type) (s : Array T 32#usize) : Result (Slice T) := + Array.to_slice T 32#usize s /- [array::array_to_mut_slice_]: forward function -/ -def array_to_mut_slice_ - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result (Slice T0) := - Array.to_slice_mut T0 (Usize.ofInt 32) s +def array_to_mut_slice_ (T : Type) (s : Array T 32#usize) : Result (Slice T) := + Array.to_slice T 32#usize s /- [array::array_to_mut_slice_]: backward function 0 -/ def array_to_mut_slice__back - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (ret0 : Slice T0) : - Result (Array T0 (Usize.ofInt 32)) + (T : Type) (s : Array T 32#usize) (ret0 : Slice T) : + Result (Array T 32#usize) := - Array.to_slice_mut_back T0 (Usize.ofInt 32) s ret0 + Array.from_slice T 32#usize s ret0 /- [array::array_len]: forward function -/ -def array_len (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result Usize := +def array_len (T : Type) (s : Array T 32#usize) : Result Usize := do - let s0 ← Array.to_slice_shared T0 (Usize.ofInt 32) s - let i := Slice.len T0 s0 + let s0 ← Array.to_slice T 32#usize s + let i := Slice.len T s0 Result.ret i /- [array::shared_array_len]: forward function -/ -def shared_array_len - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result Usize := +def shared_array_len (T : Type) (s : Array T 32#usize) : Result Usize := do - let s0 ← Array.to_slice_shared T0 (Usize.ofInt 32) s - let i := Slice.len T0 s0 + let s0 ← Array.to_slice T 32#usize s + let i := Slice.len T s0 Result.ret i /- [array::shared_slice_len]: forward function -/ -def shared_slice_len (T0 : Type) (s : Slice T0) : Result Usize := - let i := Slice.len T0 s +def shared_slice_len (T : Type) (s : Slice T) : Result Usize := + let i := Slice.len T s Result.ret i /- [array::index_array_shared]: forward function -/ def index_array_shared - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (i : Usize) : Result T0 := - Array.index_shared T0 (Usize.ofInt 32) s i + (T : Type) (s : Array T 32#usize) (i : Usize) : Result T := + Array.index_usize T 32#usize s i /- [array::index_array_u32]: forward function -/ -def index_array_u32 - (s : Array U32 (Usize.ofInt 32)) (i : Usize) : Result U32 := - Array.index_shared U32 (Usize.ofInt 32) s i - -/- [array::index_array_generic]: forward function -/ -def index_array_generic - (N : Usize) (s : Array U32 N) (i : Usize) : Result U32 := - Array.index_shared U32 N s i - -/- [array::index_array_generic_call]: forward function -/ -def index_array_generic_call - (N : Usize) (s : Array U32 N) (i : Usize) : Result U32 := - index_array_generic N s i +def index_array_u32 (s : Array U32 32#usize) (i : Usize) : Result U32 := + Array.index_usize U32 32#usize s i /- [array::index_array_copy]: forward function -/ -def index_array_copy (x : Array U32 (Usize.ofInt 32)) : Result U32 := - Array.index_shared U32 (Usize.ofInt 32) x (Usize.ofInt 0) +def index_array_copy (x : Array U32 32#usize) : Result U32 := + Array.index_usize U32 32#usize x 0#usize /- [array::index_mut_array]: forward function -/ -def index_mut_array - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (i : Usize) : Result T0 := - Array.index_mut T0 (Usize.ofInt 32) s i +def index_mut_array (T : Type) (s : Array T 32#usize) (i : Usize) : Result T := + Array.index_usize T 32#usize s i /- [array::index_mut_array]: backward function 0 -/ def index_mut_array_back - (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (i : Usize) (ret0 : T0) : - Result (Array T0 (Usize.ofInt 32)) + (T : Type) (s : Array T 32#usize) (i : Usize) (ret0 : T) : + Result (Array T 32#usize) := - Array.index_mut_back T0 (Usize.ofInt 32) s i ret0 + Array.update_usize T 32#usize s i ret0 /- [array::index_slice]: forward function -/ -def index_slice (T0 : Type) (s : Slice T0) (i : Usize) : Result T0 := - Slice.index_shared T0 s i +def index_slice (T : Type) (s : Slice T) (i : Usize) : Result T := + Slice.index_usize T s i /- [array::index_mut_slice]: forward function -/ -def index_mut_slice (T0 : Type) (s : Slice T0) (i : Usize) : Result T0 := - Slice.index_mut T0 s i +def index_mut_slice (T : Type) (s : Slice T) (i : Usize) : Result T := + Slice.index_usize T s i /- [array::index_mut_slice]: backward function 0 -/ def index_mut_slice_back - (T0 : Type) (s : Slice T0) (i : Usize) (ret0 : T0) : Result (Slice T0) := - Slice.index_mut_back T0 s i ret0 + (T : Type) (s : Slice T) (i : Usize) (ret0 : T) : Result (Slice T) := + Slice.update_usize T s i ret0 /- [array::slice_subslice_shared_]: forward function -/ def slice_subslice_shared_ (x : Slice U32) (y : Usize) (z : Usize) : Result (Slice U32) := - Slice.subslice_shared U32 x (Range.mk y z) + core.slice.index.Slice.index U32 (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32) x + { start := y, end_ := z } /- [array::slice_subslice_mut_]: forward function -/ def slice_subslice_mut_ (x : Slice U32) (y : Usize) (z : Usize) : Result (Slice U32) := - Slice.subslice_mut U32 x (Range.mk y z) + core.slice.index.Slice.index_mut U32 (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32) x + { start := y, end_ := z } /- [array::slice_subslice_mut_]: backward function 0 -/ def slice_subslice_mut__back (x : Slice U32) (y : Usize) (z : Usize) (ret0 : Slice U32) : Result (Slice U32) := - Slice.subslice_mut_back U32 x (Range.mk y z) ret0 + core.slice.index.Slice.index_mut_back U32 (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32) x + { start := y, end_ := z } ret0 /- [array::array_to_slice_shared_]: forward function -/ -def array_to_slice_shared_ - (x : Array U32 (Usize.ofInt 32)) : Result (Slice U32) := - Array.to_slice_shared U32 (Usize.ofInt 32) x +def array_to_slice_shared_ (x : Array U32 32#usize) : Result (Slice U32) := + Array.to_slice U32 32#usize x /- [array::array_to_slice_mut_]: forward function -/ -def array_to_slice_mut_ - (x : Array U32 (Usize.ofInt 32)) : Result (Slice U32) := - Array.to_slice_mut U32 (Usize.ofInt 32) x +def array_to_slice_mut_ (x : Array U32 32#usize) : Result (Slice U32) := + Array.to_slice U32 32#usize x /- [array::array_to_slice_mut_]: backward function 0 -/ def array_to_slice_mut__back - (x : Array U32 (Usize.ofInt 32)) (ret0 : Slice U32) : - Result (Array U32 (Usize.ofInt 32)) - := - Array.to_slice_mut_back U32 (Usize.ofInt 32) x ret0 + (x : Array U32 32#usize) (ret0 : Slice U32) : Result (Array U32 32#usize) := + Array.from_slice U32 32#usize x ret0 /- [array::array_subslice_shared_]: forward function -/ def array_subslice_shared_ - (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) : - Result (Slice U32) - := - Array.subslice_shared U32 (Usize.ofInt 32) x (Range.mk y z) + (x : Array U32 32#usize) (y : Usize) (z : Usize) : Result (Slice U32) := + core.array.Array.index U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } /- [array::array_subslice_mut_]: forward function -/ def array_subslice_mut_ - (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) : - Result (Slice U32) - := - Array.subslice_mut U32 (Usize.ofInt 32) x (Range.mk y z) + (x : Array U32 32#usize) (y : Usize) (z : Usize) : Result (Slice U32) := + core.array.Array.index_mut U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } /- [array::array_subslice_mut_]: backward function 0 -/ def array_subslice_mut__back - (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) (ret0 : Slice U32) : - Result (Array U32 (Usize.ofInt 32)) + (x : Array U32 32#usize) (y : Usize) (z : Usize) (ret0 : Slice U32) : + Result (Array U32 32#usize) := - Array.subslice_mut_back U32 (Usize.ofInt 32) x (Range.mk y z) ret0 + core.array.Array.index_mut_back U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } ret0 /- [array::index_slice_0]: forward function -/ -def index_slice_0 (T0 : Type) (s : Slice T0) : Result T0 := - Slice.index_shared T0 s (Usize.ofInt 0) +def index_slice_0 (T : Type) (s : Slice T) : Result T := + Slice.index_usize T s 0#usize /- [array::index_array_0]: forward function -/ -def index_array_0 (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result T0 := - Array.index_shared T0 (Usize.ofInt 32) s (Usize.ofInt 0) +def index_array_0 (T : Type) (s : Array T 32#usize) : Result T := + Array.index_usize T 32#usize s 0#usize /- [array::index_index_array]: forward function -/ def index_index_array - (s : Array (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32)) (i : Usize) - (j : Usize) : + (s : Array (Array U32 32#usize) 32#usize) (i : Usize) (j : Usize) : Result U32 := do - let a ← - Array.index_shared (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32) s i - Array.index_shared U32 (Usize.ofInt 32) a j + let a ← Array.index_usize (Array U32 32#usize) 32#usize s i + Array.index_usize U32 32#usize a j /- [array::update_update_array]: forward function -/ def update_update_array - (s : Array (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32)) (i : Usize) - (j : Usize) : + (s : Array (Array U32 32#usize) 32#usize) (i : Usize) (j : Usize) : Result Unit := do - let a ← Array.index_mut (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32) s i - let a0 ← Array.index_mut_back U32 (Usize.ofInt 32) a j (U32.ofInt 0) - let _ ← - Array.index_mut_back (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32) s i a0 + let a ← Array.index_usize (Array U32 32#usize) 32#usize s i + let a0 ← Array.update_usize U32 32#usize a j 0#u32 + let _ ← Array.update_usize (Array U32 32#usize) 32#usize s i a0 Result.ret () /- [array::array_local_deep_copy]: forward function -/ -def array_local_deep_copy (x : Array U32 (Usize.ofInt 32)) : Result Unit := +def array_local_deep_copy (x : Array U32 32#usize) : Result Unit := Result.ret () /- [array::take_array]: forward function -/ -def take_array (a : Array U32 (Usize.ofInt 2)) : Result Unit := +def take_array (a : Array U32 2#usize) : Result Unit := Result.ret () /- [array::take_array_borrow]: forward function -/ -def take_array_borrow (a : Array U32 (Usize.ofInt 2)) : Result Unit := +def take_array_borrow (a : Array U32 2#usize) : Result Unit := Result.ret () /- [array::take_slice]: forward function -/ @@ -203,148 +197,131 @@ def take_mut_slice (s : Slice U32) : Result (Slice U32) := /- [array::take_all]: forward function -/ def take_all : Result Unit := do - let _ ← - take_array - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) - let _ ← - take_array_borrow - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let _ ← take_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let _ ← take_array_borrow (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let s ← - Array.to_slice_shared U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let _ ← take_slice s let s0 ← - Array.to_slice_mut U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let s1 ← take_mut_slice s0 let _ ← - Array.to_slice_mut_back U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s1 + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s1 Result.ret () /- [array::index_array]: forward function -/ -def index_array (x : Array U32 (Usize.ofInt 2)) : Result U32 := - Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) +def index_array (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize /- [array::index_array_borrow]: forward function -/ -def index_array_borrow (x : Array U32 (Usize.ofInt 2)) : Result U32 := - Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) +def index_array_borrow (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize /- [array::index_slice_u32_0]: forward function -/ def index_slice_u32_0 (x : Slice U32) : Result U32 := - Slice.index_shared U32 x (Usize.ofInt 0) + Slice.index_usize U32 x 0#usize /- [array::index_mut_slice_u32_0]: forward function -/ def index_mut_slice_u32_0 (x : Slice U32) : Result U32 := - Slice.index_shared U32 x (Usize.ofInt 0) + Slice.index_usize U32 x 0#usize /- [array::index_mut_slice_u32_0]: backward function 0 -/ def index_mut_slice_u32_0_back (x : Slice U32) : Result (Slice U32) := do - let _ ← Slice.index_shared U32 x (Usize.ofInt 0) + let _ ← Slice.index_usize U32 x 0#usize Result.ret x /- [array::index_all]: forward function -/ def index_all : Result U32 := do - let i ← - index_array - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) - let i0 ← - index_array - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i ← index_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let i0 ← index_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let i1 ← i + i0 - let i2 ← - index_array_borrow - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i2 ← index_array_borrow (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let i3 ← i1 + i2 let s ← - Array.to_slice_shared U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let i4 ← index_slice_u32_0 s let i5 ← i3 + i4 let s0 ← - Array.to_slice_mut U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let i6 ← index_mut_slice_u32_0 s0 let i7 ← i5 + i6 let s1 ← index_mut_slice_u32_0_back s0 let _ ← - Array.to_slice_mut_back U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s1 + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s1 Result.ret i7 /- [array::update_array]: forward function -/ -def update_array (x : Array U32 (Usize.ofInt 2)) : Result Unit := +def update_array (x : Array U32 2#usize) : Result Unit := do - let _ ← - Array.index_mut_back U32 (Usize.ofInt 2) x (Usize.ofInt 0) (U32.ofInt 1) + let _ ← Array.update_usize U32 2#usize x 0#usize 1#u32 Result.ret () /- [array::update_array_mut_borrow]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def update_array_mut_borrow - (x : Array U32 (Usize.ofInt 2)) : Result (Array U32 (Usize.ofInt 2)) := - Array.index_mut_back U32 (Usize.ofInt 2) x (Usize.ofInt 0) (U32.ofInt 1) + (x : Array U32 2#usize) : Result (Array U32 2#usize) := + Array.update_usize U32 2#usize x 0#usize 1#u32 /- [array::update_mut_slice]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def update_mut_slice (x : Slice U32) : Result (Slice U32) := - Slice.index_mut_back U32 x (Usize.ofInt 0) (U32.ofInt 1) + Slice.update_usize U32 x 0#usize 1#u32 /- [array::update_all]: forward function -/ def update_all : Result Unit := do - let _ ← - update_array - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) - let x ← - update_array_mut_borrow - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) - let s ← Array.to_slice_mut U32 (Usize.ofInt 2) x + let _ ← update_array (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let x ← update_array_mut_borrow (Array.make U32 2#usize [ 0#u32, 0#u32 ]) + let s ← Array.to_slice U32 2#usize x let s0 ← update_mut_slice s - let _ ← Array.to_slice_mut_back U32 (Usize.ofInt 2) x s0 + let _ ← Array.from_slice U32 2#usize x s0 Result.ret () /- [array::range_all]: forward function -/ def range_all : Result Unit := do let s ← - Array.subslice_mut U32 (Usize.ofInt 4) - (Array.make U32 (Usize.ofInt 4) [ - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0) - ]) (Range.mk (Usize.ofInt 1) (Usize.ofInt 3)) + core.array.Array.index_mut U32 (core.ops.range.Range Usize) 4#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 + (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32)) + (Array.make U32 4#usize [ 0#u32, 0#u32, 0#u32, 0#u32 ]) + { start := 1#usize, end_ := 3#usize } let s0 ← update_mut_slice s let _ ← - Array.subslice_mut_back U32 (Usize.ofInt 4) - (Array.make U32 (Usize.ofInt 4) [ - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0) - ]) (Range.mk (Usize.ofInt 1) (Usize.ofInt 3)) s0 + core.array.Array.index_mut_back U32 (core.ops.range.Range Usize) 4#usize + (core.slice.index.Slice.coreopsindexIndexMutInst U32 + (core.ops.range.Range Usize) + (core.slice.index.Range.coresliceindexSliceIndexInst U32)) + (Array.make U32 4#usize [ 0#u32, 0#u32, 0#u32, 0#u32 ]) + { start := 1#usize, end_ := 3#usize } s0 Result.ret () /- [array::deref_array_borrow]: forward function -/ -def deref_array_borrow (x : Array U32 (Usize.ofInt 2)) : Result U32 := - Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) +def deref_array_borrow (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize /- [array::deref_array_mut_borrow]: forward function -/ -def deref_array_mut_borrow (x : Array U32 (Usize.ofInt 2)) : Result U32 := - Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) +def deref_array_mut_borrow (x : Array U32 2#usize) : Result U32 := + Array.index_usize U32 2#usize x 0#usize /- [array::deref_array_mut_borrow]: backward function 0 -/ def deref_array_mut_borrow_back - (x : Array U32 (Usize.ofInt 2)) : Result (Array U32 (Usize.ofInt 2)) := + (x : Array U32 2#usize) : Result (Array U32 2#usize) := do - let _ ← Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) + let _ ← Array.index_usize U32 2#usize x 0#usize Result.ret x /- [array::take_array_t]: forward function -/ -def take_array_t (a : Array T (Usize.ofInt 2)) : Result Unit := +def take_array_t (a : Array AB 2#usize) : Result Unit := Result.ret () /- [array::non_copyable_array]: forward function -/ def non_copyable_array : Result Unit := do - let _ ← take_array_t (Array.make T (Usize.ofInt 2) [ T.A, T.B ]) + let _ ← take_array_t (Array.make AB 2#usize [ AB.A, AB.B ]) Result.ret () /- [array::sum]: loop 0: forward function -/ @@ -353,15 +330,15 @@ divergent def sum_loop (s : Slice U32) (sum0 : U32) (i : Usize) : Result U32 := if i < i0 then do - let i1 ← Slice.index_shared U32 s i + let i1 ← Slice.index_usize U32 s i let sum1 ← sum0 + i1 - let i2 ← i + (Usize.ofInt 1) + let i2 ← i + 1#usize sum_loop s sum1 i2 else Result.ret sum0 /- [array::sum]: forward function -/ def sum (s : Slice U32) : Result U32 := - sum_loop s (U32.ofInt 0) (Usize.ofInt 0) + sum_loop s 0#u32 0#usize /- [array::sum2]: loop 0: forward function -/ divergent def sum2_loop @@ -370,11 +347,11 @@ divergent def sum2_loop if i < i0 then do - let i1 ← Slice.index_shared U32 s i - let i2 ← Slice.index_shared U32 s2 i + let i1 ← Slice.index_usize U32 s i + let i2 ← Slice.index_usize U32 s2 i let i3 ← i1 + i2 let sum1 ← sum0 + i3 - let i4 ← i + (Usize.ofInt 1) + let i4 ← i + 1#usize sum2_loop s s2 sum1 i4 else Result.ret sum0 @@ -384,27 +361,24 @@ def sum2 (s : Slice U32) (s2 : Slice U32) : Result U32 := let i0 := Slice.len U32 s2 if not (i = i0) then Result.fail Error.panic - else sum2_loop s s2 (U32.ofInt 0) (Usize.ofInt 0) + else sum2_loop s s2 0#u32 0#usize /- [array::f0]: forward function -/ def f0 : Result Unit := do let s ← - Array.to_slice_mut U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) - let s0 ← Slice.index_mut_back U32 s (Usize.ofInt 0) (U32.ofInt 1) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + let s0 ← Slice.update_usize U32 s 0#usize 1#u32 let _ ← - Array.to_slice_mut_back U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) s0 + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) s0 Result.ret () /- [array::f1]: forward function -/ def f1 : Result Unit := do let _ ← - Array.index_mut_back U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) - (Usize.ofInt 0) (U32.ofInt 1) + Array.update_usize U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + 0#usize 1#u32 Result.ret () /- [array::f2]: forward function -/ @@ -412,54 +386,46 @@ def f2 (i : U32) : Result Unit := Result.ret () /- [array::f4]: forward function -/ -def f4 - (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) : - Result (Slice U32) - := - Array.subslice_shared U32 (Usize.ofInt 32) x (Range.mk y z) +def f4 (x : Array U32 32#usize) (y : Usize) (z : Usize) : Result (Slice U32) := + core.array.Array.index U32 (core.ops.range.Range Usize) 32#usize + (core.slice.index.Slice.coreopsindexIndexInst U32 (core.ops.range.Range + Usize) (core.slice.index.Range.coresliceindexSliceIndexInst U32)) x + { start := y, end_ := z } /- [array::f3]: forward function -/ def f3 : Result U32 := do let i ← - Array.index_shared U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) - (Usize.ofInt 0) + Array.index_usize U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + 0#usize let _ ← f2 i + let b := Array.repeat U32 32#usize 0#u32 let s ← - Array.to_slice_shared U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) - let s0 ← - f4 - (Array.make U32 (Usize.ofInt 32) [ - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), - (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0) - ]) (Usize.ofInt 16) (Usize.ofInt 18) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 1#u32, 2#u32 ]) + let s0 ← f4 b 16#usize 18#usize sum2 s s0 +/- [array::SZ] -/ +def sz_body : Result Usize := Result.ret 32#usize +def sz_c : Usize := eval_global sz_body (by simp) + +/- [array::f5]: forward function -/ +def f5 (x : Array U32 32#usize) : Result U32 := + Array.index_usize U32 32#usize x 0#usize + /- [array::ite]: forward function -/ def ite : Result Unit := do let s ← - Array.to_slice_mut U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let s0 ← - Array.to_slice_mut U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + Array.to_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) let s1 ← index_mut_slice_u32_0_back s0 let _ ← - Array.to_slice_mut_back U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s1 + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s1 let s2 ← index_mut_slice_u32_0_back s let _ ← - Array.to_slice_mut_back U32 (Usize.ofInt 2) - (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s2 + Array.from_slice U32 2#usize (Array.make U32 2#usize [ 0#u32, 0#u32 ]) s2 Result.ret () end array diff --git a/tests/lean/Array/Types.lean b/tests/lean/Array/Types.lean index 72241276..60fa81ab 100644 --- a/tests/lean/Array/Types.lean +++ b/tests/lean/Array/Types.lean @@ -5,9 +5,9 @@ open Primitives namespace array -/- [array::T] -/ -inductive T := -| A : T -| B : T +/- [array::AB] -/ +inductive AB := +| A : AB +| B : AB end array diff --git a/tests/lean/BetreeMain/Funs.lean b/tests/lean/BetreeMain/Funs.lean index 07ef08dc..0901d449 100644 --- a/tests/lean/BetreeMain/Funs.lean +++ b/tests/lean/BetreeMain/Funs.lean @@ -40,77 +40,71 @@ def betree.store_leaf_node /- [betree_main::betree::fresh_node_id]: forward function -/ def betree.fresh_node_id (counter : U64) : Result U64 := do - let _ ← counter + (U64.ofInt 1) + let _ ← counter + 1#u64 Result.ret counter /- [betree_main::betree::fresh_node_id]: backward function 0 -/ def betree.fresh_node_id_back (counter : U64) : Result U64 := - counter + (U64.ofInt 1) + counter + 1#u64 /- [betree_main::betree::NodeIdCounter::{0}::new]: forward function -/ def betree.NodeIdCounter.new : Result betree.NodeIdCounter := - Result.ret { next_node_id := (U64.ofInt 0) } + Result.ret { next_node_id := 0#u64 } /- [betree_main::betree::NodeIdCounter::{0}::fresh_id]: forward function -/ def betree.NodeIdCounter.fresh_id (self : betree.NodeIdCounter) : Result U64 := do - let _ ← self.next_node_id + (U64.ofInt 1) + let _ ← self.next_node_id + 1#u64 Result.ret self.next_node_id /- [betree_main::betree::NodeIdCounter::{0}::fresh_id]: backward function 0 -/ def betree.NodeIdCounter.fresh_id_back (self : betree.NodeIdCounter) : Result betree.NodeIdCounter := do - let i ← self.next_node_id + (U64.ofInt 1) + let i ← self.next_node_id + 1#u64 Result.ret { next_node_id := i } -/- [core::num::u64::{9}::MAX] -/ -def core_num_u64_max_body : Result U64 := - Result.ret (U64.ofInt 18446744073709551615) -def core_num_u64_max_c : U64 := eval_global core_num_u64_max_body (by simp) - /- [betree_main::betree::upsert_update]: forward function -/ def betree.upsert_update (prev : Option U64) (st : betree.UpsertFunState) : Result U64 := match prev with - | Option.none => + | none => match st with | betree.UpsertFunState.Add v => Result.ret v - | betree.UpsertFunState.Sub i => Result.ret (U64.ofInt 0) - | Option.some prev0 => + | betree.UpsertFunState.Sub i => Result.ret 0#u64 + | some prev0 => match st with | betree.UpsertFunState.Add v => do - let margin ← core_num_u64_max_c - prev0 + let margin ← core_u64_max - prev0 if margin >= v then prev0 + v - else Result.ret core_num_u64_max_c + else Result.ret core_u64_max | betree.UpsertFunState.Sub v => if prev0 >= v then prev0 - v - else Result.ret (U64.ofInt 0) + else Result.ret 0#u64 /- [betree_main::betree::List::{1}::len]: forward function -/ divergent def betree.List.len (T : Type) (self : betree.List T) : Result U64 := match self with - | betree.List.Cons t tl => - do - let i ← betree.List.len T tl - (U64.ofInt 1) + i - | betree.List.Nil => Result.ret (U64.ofInt 0) + | betree.List.Cons t tl => do + let i ← betree.List.len T tl + 1#u64 + i + | betree.List.Nil => Result.ret 0#u64 /- [betree_main::betree::List::{1}::split_at]: forward function -/ divergent def betree.List.split_at (T : Type) (self : betree.List T) (n : U64) : Result ((betree.List T) × (betree.List T)) := - if n = (U64.ofInt 0) + if n = 0#u64 then Result.ret (betree.List.Nil, self) else match self with | betree.List.Cons hd tl => do - let i ← n - (U64.ofInt 1) + let i ← n - 1#u64 let p ← betree.List.split_at T tl i let (ls0, ls1) := p let l := ls0 @@ -121,13 +115,13 @@ divergent def betree.List.split_at (there is a single backward function, and the forward function returns ()) -/ def betree.List.push_front (T : Type) (self : betree.List T) (x : T) : Result (betree.List T) := - let tl := mem.replace (betree.List T) self betree.List.Nil + let tl := core.mem.replace (betree.List T) self betree.List.Nil let l := tl Result.ret (betree.List.Cons x l) /- [betree_main::betree::List::{1}::pop_front]: forward function -/ def betree.List.pop_front (T : Type) (self : betree.List T) : Result T := - let ls := mem.replace (betree.List T) self betree.List.Nil + let ls := core.mem.replace (betree.List T) self betree.List.Nil match ls with | betree.List.Cons x tl => Result.ret x | betree.List.Nil => Result.fail Error.panic @@ -135,7 +129,7 @@ def betree.List.pop_front (T : Type) (self : betree.List T) : Result T := /- [betree_main::betree::List::{1}::pop_front]: backward function 0 -/ def betree.List.pop_front_back (T : Type) (self : betree.List T) : Result (betree.List T) := - let ls := mem.replace (betree.List T) self betree.List.Nil + let ls := core.mem.replace (betree.List T) self betree.List.Nil match ls with | betree.List.Cons x tl => Result.ret tl | betree.List.Nil => Result.fail Error.panic @@ -261,7 +255,7 @@ divergent def betree.Node.apply_upserts let v ← betree.upsert_update prev s let msgs0 ← betree.List.pop_front_back (U64 × betree.Message) msgs - betree.Node.apply_upserts msgs0 (Option.some v) key st + betree.Node.apply_upserts msgs0 (some v) key st else do let (st0, v) ← core.option.Option.unwrap U64 prev st @@ -291,7 +285,7 @@ divergent def betree.Node.apply_upserts_back let v ← betree.upsert_update prev s let msgs0 ← betree.List.pop_front_back (U64 × betree.Message) msgs - betree.Node.apply_upserts_back msgs0 (Option.some v) key st + betree.Node.apply_upserts_back msgs0 (some v) key st else do let (_, v) ← core.option.Option.unwrap U64 prev st @@ -305,12 +299,12 @@ divergent def betree.Node.lookup_in_bindings | betree.List.Cons hd tl => let (i, i0) := hd if i = key - then Result.ret (Option.some i0) + then Result.ret (some i0) else if i > key - then Result.ret Option.none + then Result.ret none else betree.Node.lookup_in_bindings key tl - | betree.List.Nil => Result.ret Option.none + | betree.List.Nil => Result.ret none /- [betree_main::betree::Internal::{4}::lookup_in_children]: forward function -/ mutual divergent def betree.Internal.lookup_in_children @@ -353,13 +347,13 @@ divergent def betree.Node.lookup if k != key then do - let (st1, opt) ← + let (st1, o) ← betree.Internal.lookup_in_children (betree.Internal.mk i i0 n n0) key st0 let _ ← betree.Node.lookup_first_message_for_key_back key msgs (betree.List.Cons (k, msg) l) - Result.ret (st1, opt) + Result.ret (st1, o) else match msg with | betree.Message.Insert v => @@ -367,13 +361,13 @@ divergent def betree.Node.lookup let _ ← betree.Node.lookup_first_message_for_key_back key msgs (betree.List.Cons (k, betree.Message.Insert v) l) - Result.ret (st0, Option.some v) + Result.ret (st0, some v) | betree.Message.Delete => do let _ ← betree.Node.lookup_first_message_for_key_back key msgs (betree.List.Cons (k, betree.Message.Delete) l) - Result.ret (st0, Option.none) + Result.ret (st0, none) | betree.Message.Upsert ufs => do let (st1, v) ← @@ -392,21 +386,21 @@ divergent def betree.Node.lookup let msgs0 ← betree.Node.lookup_first_message_for_key_back key msgs pending0 let (st3, _) ← betree.store_internal_node i1 msgs0 st2 - Result.ret (st3, Option.some v0) + Result.ret (st3, some v0) | betree.List.Nil => do - let (st1, opt) ← + let (st1, o) ← betree.Internal.lookup_in_children (betree.Internal.mk i i0 n n0) key st0 let _ ← betree.Node.lookup_first_message_for_key_back key msgs betree.List.Nil - Result.ret (st1, opt) + Result.ret (st1, o) | betree.Node.Leaf node => do let (st0, bindings) ← betree.load_leaf_node node.id st - let opt ← betree.Node.lookup_in_bindings key bindings - Result.ret (st0, opt) + let o ← betree.Node.lookup_in_bindings key bindings + Result.ret (st0, o) /- [betree_main::betree::Node::{5}::lookup]: backward function 0 -/ divergent def betree.Node.lookup_back @@ -565,7 +559,7 @@ def betree.Node.apply_to_internal match m with | betree.Message.Insert prev => do - let v ← betree.upsert_update (Option.some prev) s + let v ← betree.upsert_update (some prev) s let msgs1 ← betree.List.pop_front_back (U64 × betree.Message) msgs0 let msgs2 ← @@ -574,7 +568,7 @@ def betree.Node.apply_to_internal betree.Node.lookup_first_message_for_key_back key msgs msgs2 | betree.Message.Delete => do - let v ← betree.upsert_update Option.none s + let v ← betree.upsert_update none s let msgs1 ← betree.List.pop_front_back (U64 × betree.Message) msgs0 let msgs2 ← @@ -670,7 +664,7 @@ def betree.Node.apply_to_leaf | betree.Message.Upsert s => do let (_, i) := hd - let v ← betree.upsert_update (Option.some i) s + let v ← betree.upsert_update (some i) s let bindings1 ← betree.List.pop_front_back (U64 × U64) bindings0 let bindings2 ← betree.List.push_front (U64 × U64) bindings1 (key, v) @@ -686,7 +680,7 @@ def betree.Node.apply_to_leaf betree.Node.lookup_mut_in_bindings_back key bindings bindings0 | betree.Message.Upsert s => do - let v ← betree.upsert_update Option.none s + let v ← betree.upsert_update none s let bindings1 ← betree.List.push_front (U64 × U64) bindings0 (key, v) betree.Node.lookup_mut_in_bindings_back key bindings bindings1 @@ -813,7 +807,7 @@ divergent def betree.Node.apply_messages let (st0, content) ← betree.load_leaf_node node.id st let content0 ← betree.Node.apply_messages_to_leaf content msgs let len ← betree.List.len (U64 × U64) content0 - let i ← (U64.ofInt 2) * params.split_size + let i ← 2#u64 * params.split_size if len >= i then do @@ -863,7 +857,7 @@ divergent def betree.Node.apply_messages_back let (st0, content) ← betree.load_leaf_node node.id st let content0 ← betree.Node.apply_messages_to_leaf content msgs let len ← betree.List.len (U64 × U64) content0 - let i ← (U64.ofInt 2) * params.split_size + let i ← 2#u64 * params.split_size if len >= i then do @@ -923,7 +917,7 @@ def betree.BeTree.new params := { min_flush_size := min_flush_size, split_size := split_size }, node_id_cnt := node_id_cnt0, - root := (betree.Node.Leaf { id := id, size := (U64.ofInt 0) }) + root := (betree.Node.Leaf { id := id, size := 0#u64 }) }) /- [betree_main::betree::BeTree::{6}::apply]: forward function -/ diff --git a/tests/lean/Constants.lean b/tests/lean/Constants.lean index 51b415d6..bd3a07b7 100644 --- a/tests/lean/Constants.lean +++ b/tests/lean/Constants.lean @@ -6,27 +6,23 @@ open Primitives namespace constants /- [constants::X0] -/ -def x0_body : Result U32 := Result.ret (U32.ofInt 0) +def x0_body : Result U32 := Result.ret 0#u32 def x0_c : U32 := eval_global x0_body (by simp) -/- [core::num::u32::{8}::MAX] -/ -def core_num_u32_max_body : Result U32 := Result.ret (U32.ofInt 4294967295) -def core_num_u32_max_c : U32 := eval_global core_num_u32_max_body (by simp) - /- [constants::X1] -/ -def x1_body : Result U32 := Result.ret core_num_u32_max_c +def x1_body : Result U32 := Result.ret core_u32_max def x1_c : U32 := eval_global x1_body (by simp) /- [constants::X2] -/ -def x2_body : Result U32 := Result.ret (U32.ofInt 3) +def x2_body : Result U32 := Result.ret 3#u32 def x2_c : U32 := eval_global x2_body (by simp) /- [constants::incr]: forward function -/ def incr (n : U32) : Result U32 := - n + (U32.ofInt 1) + n + 1#u32 /- [constants::X3] -/ -def x3_body : Result U32 := incr (U32.ofInt 32) +def x3_body : Result U32 := incr 32#u32 def x3_c : U32 := eval_global x3_body (by simp) /- [constants::mk_pair0]: forward function -/ @@ -43,44 +39,43 @@ def mk_pair1 (x : U32) (y : U32) : Result (Pair U32 U32) := Result.ret { x := x, y := y } /- [constants::P0] -/ -def p0_body : Result (U32 × U32) := mk_pair0 (U32.ofInt 0) (U32.ofInt 1) +def p0_body : Result (U32 × U32) := mk_pair0 0#u32 1#u32 def p0_c : (U32 × U32) := eval_global p0_body (by simp) /- [constants::P1] -/ -def p1_body : Result (Pair U32 U32) := mk_pair1 (U32.ofInt 0) (U32.ofInt 1) +def p1_body : Result (Pair U32 U32) := mk_pair1 0#u32 1#u32 def p1_c : Pair U32 U32 := eval_global p1_body (by simp) /- [constants::P2] -/ -def p2_body : Result (U32 × U32) := Result.ret ((U32.ofInt 0), (U32.ofInt 1)) +def p2_body : Result (U32 × U32) := Result.ret (0#u32, 1#u32) def p2_c : (U32 × U32) := eval_global p2_body (by simp) /- [constants::P3] -/ -def p3_body : Result (Pair U32 U32) := - Result.ret { x := (U32.ofInt 0), y := (U32.ofInt 1) } +def p3_body : Result (Pair U32 U32) := Result.ret { x := 0#u32, y := 1#u32 } def p3_c : Pair U32 U32 := eval_global p3_body (by simp) /- [constants::Wrap] -/ structure Wrap (T : Type) where - val : T + value : T /- [constants::Wrap::{0}::new]: forward function -/ -def Wrap.new (T : Type) (val : T) : Result (Wrap T) := - Result.ret { val := val } +def Wrap.new (T : Type) (value : T) : Result (Wrap T) := + Result.ret { value := value } /- [constants::Y] -/ -def y_body : Result (Wrap I32) := Wrap.new I32 (I32.ofInt 2) +def y_body : Result (Wrap I32) := Wrap.new I32 2#i32 def y_c : Wrap I32 := eval_global y_body (by simp) /- [constants::unwrap_y]: forward function -/ def unwrap_y : Result I32 := - Result.ret y_c.val + Result.ret y_c.value /- [constants::YVAL] -/ def yval_body : Result I32 := unwrap_y def yval_c : I32 := eval_global yval_body (by simp) /- [constants::get_z1::Z1] -/ -def get_z1_z1_body : Result I32 := Result.ret (I32.ofInt 3) +def get_z1_z1_body : Result I32 := Result.ret 3#i32 def get_z1_z1_c : I32 := eval_global get_z1_z1_body (by simp) /- [constants::get_z1]: forward function -/ @@ -92,7 +87,7 @@ def add (a : I32) (b : I32) : Result I32 := a + b /- [constants::Q1] -/ -def q1_body : Result I32 := Result.ret (I32.ofInt 5) +def q1_body : Result I32 := Result.ret 5#i32 def q1_c : I32 := eval_global q1_body (by simp) /- [constants::Q2] -/ @@ -100,7 +95,7 @@ def q2_body : Result I32 := Result.ret q1_c def q2_c : I32 := eval_global q2_body (by simp) /- [constants::Q3] -/ -def q3_body : Result I32 := add q2_c (I32.ofInt 3) +def q3_body : Result I32 := add q2_c 3#i32 def q3_c : I32 := eval_global q3_body (by simp) /- [constants::get_z2]: forward function -/ @@ -111,7 +106,7 @@ def get_z2 : Result I32 := add q1_c i0 /- [constants::S1] -/ -def s1_body : Result U32 := Result.ret (U32.ofInt 6) +def s1_body : Result U32 := Result.ret 6#u32 def s1_c : U32 := eval_global s1_body (by simp) /- [constants::S2] -/ @@ -123,7 +118,7 @@ def s3_body : Result (Pair U32 U32) := Result.ret p3_c def s3_c : Pair U32 U32 := eval_global s3_body (by simp) /- [constants::S4] -/ -def s4_body : Result (Pair U32 U32) := mk_pair1 (U32.ofInt 7) (U32.ofInt 8) +def s4_body : Result (Pair U32 U32) := mk_pair1 7#u32 8#u32 def s4_c : Pair U32 U32 := eval_global s4_body (by simp) end constants diff --git a/tests/lean/External/Funs.lean b/tests/lean/External/Funs.lean index 055d7860..55fb07be 100644 --- a/tests/lean/External/Funs.lean +++ b/tests/lean/External/Funs.lean @@ -30,14 +30,14 @@ def swap_back def test_new_non_zero_u32 (x : U32) (st : State) : Result (State × core.num.nonzero.NonZeroU32) := do - let (st0, opt) ← core.num.nonzero.NonZeroU32.new x st - core.option.Option.unwrap core.num.nonzero.NonZeroU32 opt st0 + let (st0, o) ← core.num.nonzero.NonZeroU32.new x st + core.option.Option.unwrap core.num.nonzero.NonZeroU32 o st0 /- [external::test_vec]: forward function -/ def test_vec : Result Unit := do - let v := Vec.new U32 - let _ ← Vec.push U32 v (U32.ofInt 0) + let v := alloc.vec.Vec.new U32 + let _ ← alloc.vec.Vec.push U32 v 0#u32 Result.ret () /- Unit test for [external::test_vec] -/ @@ -75,14 +75,14 @@ def test_custom_swap_back (x : U32) (y : U32) (st : State) (st0 : State) : Result (State × (U32 × U32)) := - custom_swap_back U32 x y st (U32.ofInt 1) st0 + custom_swap_back U32 x y st 1#u32 st0 /- [external::test_swap_non_zero]: forward function -/ def test_swap_non_zero (x : U32) (st : State) : Result (State × U32) := do - let (st0, _) ← swap U32 x (U32.ofInt 0) st - let (st1, (x0, _)) ← swap_back U32 x (U32.ofInt 0) st st0 - if x0 = (U32.ofInt 0) + let (st0, _) ← swap U32 x 0#u32 st + let (st1, (x0, _)) ← swap_back U32 x 0#u32 st st0 + if x0 = 0#u32 then Result.fail Error.panic else Result.ret (st1, x0) diff --git a/tests/lean/Hashmap/Funs.lean b/tests/lean/Hashmap/Funs.lean index 30b30e0b..8464c432 100644 --- a/tests/lean/Hashmap/Funs.lean +++ b/tests/lean/Hashmap/Funs.lean @@ -12,18 +12,22 @@ def hash_key (k : Usize) : Result Usize := /- [hashmap::HashMap::{0}::allocate_slots]: loop 0: forward function -/ divergent def HashMap.allocate_slots_loop - (T : Type) (slots : Vec (List T)) (n : Usize) : Result (Vec (List T)) := - if n > (Usize.ofInt 0) + (T : Type) (slots : alloc.vec.Vec (List T)) (n : Usize) : + Result (alloc.vec.Vec (List T)) + := + if n > 0#usize then do - let slots0 ← Vec.push (List T) slots List.Nil - let n0 ← n - (Usize.ofInt 1) + let slots0 ← alloc.vec.Vec.push (List T) slots List.Nil + let n0 ← n - 1#usize HashMap.allocate_slots_loop T slots0 n0 else Result.ret slots /- [hashmap::HashMap::{0}::allocate_slots]: forward function -/ def HashMap.allocate_slots - (T : Type) (slots : Vec (List T)) (n : Usize) : Result (Vec (List T)) := + (T : Type) (slots : alloc.vec.Vec (List T)) (n : Usize) : + Result (alloc.vec.Vec (List T)) + := HashMap.allocate_slots_loop T slots n /- [hashmap::HashMap::{0}::new_with_capacity]: forward function -/ @@ -33,13 +37,13 @@ def HashMap.new_with_capacity Result (HashMap T) := do - let v := Vec.new (List T) + let v := alloc.vec.Vec.new (List T) let slots ← HashMap.allocate_slots T v capacity let i ← capacity * max_load_dividend let i0 ← i / max_load_divisor Result.ret { - num_entries := (Usize.ofInt 0), + num_entries := 0#usize, max_load_factor := (max_load_dividend, max_load_divisor), max_load := i0, slots := slots @@ -47,18 +51,23 @@ def HashMap.new_with_capacity /- [hashmap::HashMap::{0}::new]: forward function -/ def HashMap.new (T : Type) : Result (HashMap T) := - HashMap.new_with_capacity T (Usize.ofInt 32) (Usize.ofInt 4) (Usize.ofInt 5) + HashMap.new_with_capacity T 32#usize 4#usize 5#usize /- [hashmap::HashMap::{0}::clear]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ divergent def HashMap.clear_loop - (T : Type) (slots : Vec (List T)) (i : Usize) : Result (Vec (List T)) := - let i0 := Vec.len (List T) slots + (T : Type) (slots : alloc.vec.Vec (List T)) (i : Usize) : + Result (alloc.vec.Vec (List T)) + := + let i0 := alloc.vec.Vec.len (List T) slots if i < i0 then do - let i1 ← i + (Usize.ofInt 1) - let slots0 ← Vec.index_mut_back (List T) slots i List.Nil + let i1 ← i + 1#usize + let slots0 ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) slots + i List.Nil HashMap.clear_loop T slots0 i1 else Result.ret slots @@ -66,8 +75,8 @@ divergent def HashMap.clear_loop (there is a single backward function, and the forward function returns ()) -/ def HashMap.clear (T : Type) (self : HashMap T) : Result (HashMap T) := do - let v ← HashMap.clear_loop T self.slots (Usize.ofInt 0) - Result.ret { self with num_entries := (Usize.ofInt 0), slots := v } + let v ← HashMap.clear_loop T self.slots 0#usize + Result.ret { self with num_entries := 0#usize, slots := v } /- [hashmap::HashMap::{0}::len]: forward function -/ def HashMap.len (T : Type) (self : HashMap T) : Result Usize := @@ -115,27 +124,32 @@ def HashMap.insert_no_resize := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod let inserted ← HashMap.insert_in_list T key value l if inserted then do - let i0 ← self.num_entries + (Usize.ofInt 1) + let i0 ← self.num_entries + 1#usize let l0 ← HashMap.insert_in_list_back T key value l - let v ← Vec.index_mut_back (List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod l0 Result.ret { self with num_entries := i0, slots := v } else do let l0 ← HashMap.insert_in_list_back T key value l - let v ← Vec.index_mut_back (List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod l0 Result.ret { self with slots := v } -/- [core::num::u32::{8}::MAX] -/ -def core_num_u32_max_body : Result U32 := Result.ret (U32.ofInt 4294967295) -def core_num_u32_max_c : U32 := eval_global core_num_u32_max_body (by simp) - /- [hashmap::HashMap::{0}::move_elements_from_list]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ divergent def HashMap.move_elements_from_list_loop @@ -156,27 +170,35 @@ def HashMap.move_elements_from_list /- [hashmap::HashMap::{0}::move_elements]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ divergent def HashMap.move_elements_loop - (T : Type) (ntable : HashMap T) (slots : Vec (List T)) (i : Usize) : - Result ((HashMap T) × (Vec (List T))) + (T : Type) (ntable : HashMap T) (slots : alloc.vec.Vec (List T)) (i : Usize) + : + Result ((HashMap T) × (alloc.vec.Vec (List T))) := - let i0 := Vec.len (List T) slots + let i0 := alloc.vec.Vec.len (List T) slots if i < i0 then do - let l ← Vec.index_mut (List T) slots i - let ls := mem.replace (List T) l List.Nil + let l ← + alloc.vec.Vec.index_mut (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) slots + i + let ls := core.mem.replace (List T) l List.Nil let ntable0 ← HashMap.move_elements_from_list T ntable ls - let i1 ← i + (Usize.ofInt 1) - let l0 := mem.replace_back (List T) l List.Nil - let slots0 ← Vec.index_mut_back (List T) slots i l0 + let i1 ← i + 1#usize + let l0 := core.mem.replace_back (List T) l List.Nil + let slots0 ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) slots + i l0 HashMap.move_elements_loop T ntable0 slots0 i1 else Result.ret (ntable, slots) /- [hashmap::HashMap::{0}::move_elements]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def HashMap.move_elements - (T : Type) (ntable : HashMap T) (slots : Vec (List T)) (i : Usize) : - Result ((HashMap T) × (Vec (List T))) + (T : Type) (ntable : HashMap T) (slots : alloc.vec.Vec (List T)) (i : Usize) + : + Result ((HashMap T) × (alloc.vec.Vec (List T))) := HashMap.move_elements_loop T ntable slots i @@ -184,18 +206,17 @@ def HashMap.move_elements (there is a single backward function, and the forward function returns ()) -/ def HashMap.try_resize (T : Type) (self : HashMap T) : Result (HashMap T) := do - let max_usize ← Scalar.cast .Usize core_num_u32_max_c - let capacity := Vec.len (List T) self.slots - let n1 ← max_usize / (Usize.ofInt 2) + let max_usize ← Scalar.cast .Usize core_u32_max + let capacity := alloc.vec.Vec.len (List T) self.slots + let n1 ← max_usize / 2#usize let (i, i0) := self.max_load_factor let i1 ← n1 / i if capacity <= i1 then do - let i2 ← capacity * (Usize.ofInt 2) + let i2 ← capacity * 2#usize let ntable ← HashMap.new_with_capacity T i2 i i0 - let (ntable0, _) ← - HashMap.move_elements T ntable self.slots (Usize.ofInt 0) + let (ntable0, _) ← HashMap.move_elements T ntable self.slots 0#usize Result.ret { ntable0 @@ -237,9 +258,12 @@ def HashMap.contains_key (T : Type) (self : HashMap T) (key : Usize) : Result Bool := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_shared (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod HashMap.contains_key_in_list T key l /- [hashmap::HashMap::{0}::get_in_list]: loop 0: forward function -/ @@ -260,9 +284,12 @@ def HashMap.get_in_list (T : Type) (key : Usize) (ls : List T) : Result T := def HashMap.get (T : Type) (self : HashMap T) (key : Usize) : Result T := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_shared (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod HashMap.get_in_list T key l /- [hashmap::HashMap::{0}::get_mut_in_list]: loop 0: forward function -/ @@ -302,9 +329,12 @@ def HashMap.get_mut_in_list_back def HashMap.get_mut (T : Type) (self : HashMap T) (key : Usize) : Result T := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod HashMap.get_mut_in_list T l key /- [hashmap::HashMap::{0}::get_mut]: backward function 0 -/ @@ -314,11 +344,17 @@ def HashMap.get_mut_back := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod let l0 ← HashMap.get_mut_in_list_back T l key ret0 - let v ← Vec.index_mut_back (List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod l0 Result.ret { self with slots := v } /- [hashmap::HashMap::{0}::remove_from_list]: loop 0: forward function -/ @@ -328,12 +364,12 @@ divergent def HashMap.remove_from_list_loop | List.Cons ckey t tl => if ckey = key then - let mv_ls := mem.replace (List T) (List.Cons ckey t tl) List.Nil + let mv_ls := core.mem.replace (List T) (List.Cons ckey t tl) List.Nil match mv_ls with - | List.Cons i cvalue tl0 => Result.ret (Option.some cvalue) + | List.Cons i cvalue tl0 => Result.ret (some cvalue) | List.Nil => Result.fail Error.panic else HashMap.remove_from_list_loop T key tl - | List.Nil => Result.ret Option.none + | List.Nil => Result.ret none /- [hashmap::HashMap::{0}::remove_from_list]: forward function -/ def HashMap.remove_from_list @@ -347,7 +383,7 @@ divergent def HashMap.remove_from_list_loop_back | List.Cons ckey t tl => if ckey = key then - let mv_ls := mem.replace (List T) (List.Cons ckey t tl) List.Nil + let mv_ls := core.mem.replace (List T) (List.Cons ckey t tl) List.Nil match mv_ls with | List.Cons i cvalue tl0 => Result.ret tl0 | List.Nil => Result.fail Error.panic @@ -367,84 +403,91 @@ def HashMap.remove (T : Type) (self : HashMap T) (key : Usize) : Result (Option T) := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod let x ← HashMap.remove_from_list T key l match x with - | Option.none => Result.ret Option.none - | Option.some x0 => - do - let _ ← self.num_entries - (Usize.ofInt 1) - Result.ret (Option.some x0) + | none => Result.ret none + | some x0 => do + let _ ← self.num_entries - 1#usize + Result.ret (some x0) /- [hashmap::HashMap::{0}::remove]: backward function 0 -/ def HashMap.remove_back (T : Type) (self : HashMap T) (key : Usize) : Result (HashMap T) := do let hash ← hash_key key - let i := Vec.len (List T) self.slots + let i := alloc.vec.Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod let x ← HashMap.remove_from_list T key l match x with - | Option.none => + | none => do let l0 ← HashMap.remove_from_list_back T key l - let v ← Vec.index_mut_back (List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod l0 Result.ret { self with slots := v } - | Option.some x0 => + | some x0 => do - let i0 ← self.num_entries - (Usize.ofInt 1) + let i0 ← self.num_entries - 1#usize let l0 ← HashMap.remove_from_list_back T key l - let v ← Vec.index_mut_back (List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List T)) + self.slots hash_mod l0 Result.ret { self with num_entries := i0, slots := v } /- [hashmap::test1]: forward function -/ def test1 : Result Unit := do let hm ← HashMap.new U64 - let hm0 ← HashMap.insert U64 hm (Usize.ofInt 0) (U64.ofInt 42) - let hm1 ← HashMap.insert U64 hm0 (Usize.ofInt 128) (U64.ofInt 18) - let hm2 ← HashMap.insert U64 hm1 (Usize.ofInt 1024) (U64.ofInt 138) - let hm3 ← HashMap.insert U64 hm2 (Usize.ofInt 1056) (U64.ofInt 256) - let i ← HashMap.get U64 hm3 (Usize.ofInt 128) - if not (i = (U64.ofInt 18)) + let hm0 ← HashMap.insert U64 hm 0#usize 42#u64 + let hm1 ← HashMap.insert U64 hm0 128#usize 18#u64 + let hm2 ← HashMap.insert U64 hm1 1024#usize 138#u64 + let hm3 ← HashMap.insert U64 hm2 1056#usize 256#u64 + let i ← HashMap.get U64 hm3 128#usize + if not (i = 18#u64) then Result.fail Error.panic else do - let hm4 ← - HashMap.get_mut_back U64 hm3 (Usize.ofInt 1024) (U64.ofInt 56) - let i0 ← HashMap.get U64 hm4 (Usize.ofInt 1024) - if not (i0 = (U64.ofInt 56)) + let hm4 ← HashMap.get_mut_back U64 hm3 1024#usize 56#u64 + let i0 ← HashMap.get U64 hm4 1024#usize + if not (i0 = 56#u64) then Result.fail Error.panic else do - let x ← HashMap.remove U64 hm4 (Usize.ofInt 1024) + let x ← HashMap.remove U64 hm4 1024#usize match x with - | Option.none => Result.fail Error.panic - | Option.some x0 => - if not (x0 = (U64.ofInt 56)) + | none => Result.fail Error.panic + | some x0 => + if not (x0 = 56#u64) then Result.fail Error.panic else do - let hm5 ← HashMap.remove_back U64 hm4 (Usize.ofInt 1024) - let i1 ← HashMap.get U64 hm5 (Usize.ofInt 0) - if not (i1 = (U64.ofInt 42)) + let hm5 ← HashMap.remove_back U64 hm4 1024#usize + let i1 ← HashMap.get U64 hm5 0#usize + if not (i1 = 42#u64) then Result.fail Error.panic else do - let i2 ← HashMap.get U64 hm5 (Usize.ofInt 128) - if not (i2 = (U64.ofInt 18)) + let i2 ← HashMap.get U64 hm5 128#usize + if not (i2 = 18#u64) then Result.fail Error.panic else do - let i3 ← HashMap.get U64 hm5 (Usize.ofInt 1056) - if not (i3 = (U64.ofInt 256)) + let i3 ← HashMap.get U64 hm5 1056#usize + if not (i3 = 256#u64) then Result.fail Error.panic else Result.ret () -/- Unit test for [hashmap::test1] -/ -#assert (test1 == .ret ()) - end hashmap diff --git a/tests/lean/Hashmap/Properties.lean b/tests/lean/Hashmap/Properties.lean index fe00ab14..e79c422d 100644 --- a/tests/lean/Hashmap/Properties.lean +++ b/tests/lean/Hashmap/Properties.lean @@ -157,7 +157,7 @@ instance : Inhabited (List α) where def slots_s_inv (s : Core.List (List α)) : Prop := ∀ (i : Int), 0 ≤ i → i < s.len → slot_t_inv s.len i (s.index i) -def slots_t_inv (s : Vec (List α)) : Prop := +def slots_t_inv (s : alloc.vec.Vec (List α)) : Prop := slots_s_inv s.v @[simp] @@ -302,20 +302,19 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value | none => nhm.len_s = hm.len_s + 1 | some _ => nhm.len_s = hm.len_s) := by rw [insert_no_resize] - simp only [hash_key, bind_tc_ret] -- TODO: annoying - have _ : (Vec.len (List α) hm.slots).val ≠ 0 := by checkpoint + -- Simplify. Note that this also simplifies some function calls, like array index + simp [hash_key, bind_tc_ret] + have _ : (alloc.vec.Vec.len (List α) hm.slots).val ≠ 0 := by intro simp_all [inv] - progress keep _ as ⟨ hash_mod, hhm ⟩ - have _ : 0 ≤ hash_mod.val := by checkpoint scalar_tac - have _ : hash_mod.val < Vec.length hm.slots := by + progress as ⟨ hash_mod, hhm ⟩ + have _ : 0 ≤ hash_mod.val := by scalar_tac + have _ : hash_mod.val < alloc.vec.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] - -- 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) progress as ⟨ l, h_leq ⟩ -- TODO: make progress use the names written in the goal progress as ⟨ inserted ⟩ @@ -376,7 +375,7 @@ theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value -- TODO: we want to automate this simp apply Int.emod_nonneg k.val hvnz - have _ : k_hash_mod < Vec.length hm.slots := by + have _ : k_hash_mod < alloc.vec.Vec.length hm.slots := by -- TODO: we want to automate this simp have h := Int.emod_lt_of_pos k.val hvpos diff --git a/tests/lean/Hashmap/Types.lean b/tests/lean/Hashmap/Types.lean index 6455798d..e007bce0 100644 --- a/tests/lean/Hashmap/Types.lean +++ b/tests/lean/Hashmap/Types.lean @@ -15,6 +15,6 @@ structure HashMap (T : Type) where num_entries : Usize max_load_factor : (Usize × Usize) max_load : Usize - slots : Vec (List T) + slots : alloc.vec.Vec (List T) end hashmap diff --git a/tests/lean/HashmapMain/Funs.lean b/tests/lean/HashmapMain/Funs.lean index aec957ec..74fa8653 100644 --- a/tests/lean/HashmapMain/Funs.lean +++ b/tests/lean/HashmapMain/Funs.lean @@ -13,21 +13,21 @@ def hashmap.hash_key (k : Usize) : Result Usize := /- [hashmap_main::hashmap::HashMap::{0}::allocate_slots]: loop 0: forward function -/ divergent def hashmap.HashMap.allocate_slots_loop - (T : Type) (slots : Vec (hashmap.List T)) (n : Usize) : - Result (Vec (hashmap.List T)) + (T : Type) (slots : alloc.vec.Vec (hashmap.List T)) (n : Usize) : + Result (alloc.vec.Vec (hashmap.List T)) := - if n > (Usize.ofInt 0) + if n > 0#usize then do - let slots0 ← Vec.push (hashmap.List T) slots hashmap.List.Nil - let n0 ← n - (Usize.ofInt 1) + let slots0 ← alloc.vec.Vec.push (hashmap.List T) slots hashmap.List.Nil + let n0 ← n - 1#usize hashmap.HashMap.allocate_slots_loop T slots0 n0 else Result.ret slots /- [hashmap_main::hashmap::HashMap::{0}::allocate_slots]: forward function -/ def hashmap.HashMap.allocate_slots - (T : Type) (slots : Vec (hashmap.List T)) (n : Usize) : - Result (Vec (hashmap.List T)) + (T : Type) (slots : alloc.vec.Vec (hashmap.List T)) (n : Usize) : + Result (alloc.vec.Vec (hashmap.List T)) := hashmap.HashMap.allocate_slots_loop T slots n @@ -38,13 +38,13 @@ def hashmap.HashMap.new_with_capacity Result (hashmap.HashMap T) := do - let v := Vec.new (hashmap.List T) + let v := alloc.vec.Vec.new (hashmap.List T) let slots ← hashmap.HashMap.allocate_slots T v capacity let i ← capacity * max_load_dividend let i0 ← i / max_load_divisor Result.ret { - num_entries := (Usize.ofInt 0), + num_entries := 0#usize, max_load_factor := (max_load_dividend, max_load_divisor), max_load := i0, slots := slots @@ -52,22 +52,23 @@ def hashmap.HashMap.new_with_capacity /- [hashmap_main::hashmap::HashMap::{0}::new]: forward function -/ def hashmap.HashMap.new (T : Type) : Result (hashmap.HashMap T) := - hashmap.HashMap.new_with_capacity T (Usize.ofInt 32) (Usize.ofInt 4) - (Usize.ofInt 5) + hashmap.HashMap.new_with_capacity T 32#usize 4#usize 5#usize /- [hashmap_main::hashmap::HashMap::{0}::clear]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ divergent def hashmap.HashMap.clear_loop - (T : Type) (slots : Vec (hashmap.List T)) (i : Usize) : - Result (Vec (hashmap.List T)) + (T : Type) (slots : alloc.vec.Vec (hashmap.List T)) (i : Usize) : + Result (alloc.vec.Vec (hashmap.List T)) := - let i0 := Vec.len (hashmap.List T) slots + let i0 := alloc.vec.Vec.len (hashmap.List T) slots if i < i0 then do - let i1 ← i + (Usize.ofInt 1) + let i1 ← i + 1#usize let slots0 ← - Vec.index_mut_back (hashmap.List T) slots i hashmap.List.Nil + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) slots i hashmap.List.Nil hashmap.HashMap.clear_loop T slots0 i1 else Result.ret slots @@ -76,8 +77,8 @@ divergent def hashmap.HashMap.clear_loop def hashmap.HashMap.clear (T : Type) (self : hashmap.HashMap T) : Result (hashmap.HashMap T) := do - let v ← hashmap.HashMap.clear_loop T self.slots (Usize.ofInt 0) - Result.ret { self with num_entries := (Usize.ofInt 0), slots := v } + let v ← hashmap.HashMap.clear_loop T self.slots 0#usize + Result.ret { self with num_entries := 0#usize, slots := v } /- [hashmap_main::hashmap::HashMap::{0}::len]: forward function -/ def hashmap.HashMap.len (T : Type) (self : hashmap.HashMap T) : Result Usize := @@ -130,27 +131,32 @@ def hashmap.HashMap.insert_no_resize := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod let inserted ← hashmap.HashMap.insert_in_list T key value l if inserted then do - let i0 ← self.num_entries + (Usize.ofInt 1) + let i0 ← self.num_entries + 1#usize let l0 ← hashmap.HashMap.insert_in_list_back T key value l - let v ← Vec.index_mut_back (hashmap.List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) self.slots hash_mod l0 Result.ret { self with num_entries := i0, slots := v } else do let l0 ← hashmap.HashMap.insert_in_list_back T key value l - let v ← Vec.index_mut_back (hashmap.List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) self.slots hash_mod l0 Result.ret { self with slots := v } -/- [core::num::u32::{8}::MAX] -/ -def core_num_u32_max_body : Result U32 := Result.ret (U32.ofInt 4294967295) -def core_num_u32_max_c : U32 := eval_global core_num_u32_max_body (by simp) - /- [hashmap_main::hashmap::HashMap::{0}::move_elements_from_list]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ divergent def hashmap.HashMap.move_elements_from_list_loop @@ -175,29 +181,35 @@ def hashmap.HashMap.move_elements_from_list /- [hashmap_main::hashmap::HashMap::{0}::move_elements]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ divergent def hashmap.HashMap.move_elements_loop - (T : Type) (ntable : hashmap.HashMap T) (slots : Vec (hashmap.List T)) - (i : Usize) : - Result ((hashmap.HashMap T) × (Vec (hashmap.List T))) + (T : Type) (ntable : hashmap.HashMap T) + (slots : alloc.vec.Vec (hashmap.List T)) (i : Usize) : + Result ((hashmap.HashMap T) × (alloc.vec.Vec (hashmap.List T))) := - let i0 := Vec.len (hashmap.List T) slots + let i0 := alloc.vec.Vec.len (hashmap.List T) slots if i < i0 then do - let l ← Vec.index_mut (hashmap.List T) slots i - let ls := mem.replace (hashmap.List T) l hashmap.List.Nil + let l ← + alloc.vec.Vec.index_mut (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) slots i + let ls := core.mem.replace (hashmap.List T) l hashmap.List.Nil let ntable0 ← hashmap.HashMap.move_elements_from_list T ntable ls - let i1 ← i + (Usize.ofInt 1) - let l0 := mem.replace_back (hashmap.List T) l hashmap.List.Nil - let slots0 ← Vec.index_mut_back (hashmap.List T) slots i l0 + let i1 ← i + 1#usize + let l0 := core.mem.replace_back (hashmap.List T) l hashmap.List.Nil + let slots0 ← + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) slots i l0 hashmap.HashMap.move_elements_loop T ntable0 slots0 i1 else Result.ret (ntable, slots) /- [hashmap_main::hashmap::HashMap::{0}::move_elements]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def hashmap.HashMap.move_elements - (T : Type) (ntable : hashmap.HashMap T) (slots : Vec (hashmap.List T)) - (i : Usize) : - Result ((hashmap.HashMap T) × (Vec (hashmap.List T))) + (T : Type) (ntable : hashmap.HashMap T) + (slots : alloc.vec.Vec (hashmap.List T)) (i : Usize) : + Result ((hashmap.HashMap T) × (alloc.vec.Vec (hashmap.List T))) := hashmap.HashMap.move_elements_loop T ntable slots i @@ -206,18 +218,18 @@ def hashmap.HashMap.move_elements def hashmap.HashMap.try_resize (T : Type) (self : hashmap.HashMap T) : Result (hashmap.HashMap T) := do - let max_usize ← Scalar.cast .Usize core_num_u32_max_c - let capacity := Vec.len (hashmap.List T) self.slots - let n1 ← max_usize / (Usize.ofInt 2) + let max_usize ← Scalar.cast .Usize core_u32_max + let capacity := alloc.vec.Vec.len (hashmap.List T) self.slots + let n1 ← max_usize / 2#usize let (i, i0) := self.max_load_factor let i1 ← n1 / i if capacity <= i1 then do - let i2 ← capacity * (Usize.ofInt 2) + let i2 ← capacity * 2#usize let ntable ← hashmap.HashMap.new_with_capacity T i2 i i0 let (ntable0, _) ← - hashmap.HashMap.move_elements T ntable self.slots (Usize.ofInt 0) + hashmap.HashMap.move_elements T ntable self.slots 0#usize Result.ret { ntable0 @@ -259,9 +271,12 @@ def hashmap.HashMap.contains_key (T : Type) (self : hashmap.HashMap T) (key : Usize) : Result Bool := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_shared (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod hashmap.HashMap.contains_key_in_list T key l /- [hashmap_main::hashmap::HashMap::{0}::get_in_list]: loop 0: forward function -/ @@ -284,9 +299,12 @@ def hashmap.HashMap.get (T : Type) (self : hashmap.HashMap T) (key : Usize) : Result T := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_shared (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod hashmap.HashMap.get_in_list T key l /- [hashmap_main::hashmap::HashMap::{0}::get_mut_in_list]: loop 0: forward function -/ @@ -331,9 +349,12 @@ def hashmap.HashMap.get_mut (T : Type) (self : hashmap.HashMap T) (key : Usize) : Result T := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod hashmap.HashMap.get_mut_in_list T l key /- [hashmap_main::hashmap::HashMap::{0}::get_mut]: backward function 0 -/ @@ -343,11 +364,17 @@ def hashmap.HashMap.get_mut_back := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod let l0 ← hashmap.HashMap.get_mut_in_list_back T l key ret0 - let v ← Vec.index_mut_back (hashmap.List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod l0 Result.ret { self with slots := v } /- [hashmap_main::hashmap::HashMap::{0}::remove_from_list]: loop 0: forward function -/ @@ -358,13 +385,13 @@ divergent def hashmap.HashMap.remove_from_list_loop if ckey = key then let mv_ls := - mem.replace (hashmap.List T) (hashmap.List.Cons ckey t tl) + core.mem.replace (hashmap.List T) (hashmap.List.Cons ckey t tl) hashmap.List.Nil match mv_ls with - | hashmap.List.Cons i cvalue tl0 => Result.ret (Option.some cvalue) + | hashmap.List.Cons i cvalue tl0 => Result.ret (some cvalue) | hashmap.List.Nil => Result.fail Error.panic else hashmap.HashMap.remove_from_list_loop T key tl - | hashmap.List.Nil => Result.ret Option.none + | hashmap.List.Nil => Result.ret none /- [hashmap_main::hashmap::HashMap::{0}::remove_from_list]: forward function -/ def hashmap.HashMap.remove_from_list @@ -379,7 +406,7 @@ divergent def hashmap.HashMap.remove_from_list_loop_back if ckey = key then let mv_ls := - mem.replace (hashmap.List T) (hashmap.List.Cons ckey t tl) + core.mem.replace (hashmap.List T) (hashmap.List.Cons ckey t tl) hashmap.List.Nil match mv_ls with | hashmap.List.Cons i cvalue tl0 => Result.ret tl0 @@ -400,16 +427,18 @@ def hashmap.HashMap.remove (T : Type) (self : hashmap.HashMap T) (key : Usize) : Result (Option T) := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod let x ← hashmap.HashMap.remove_from_list T key l match x with - | Option.none => Result.ret Option.none - | Option.some x0 => - do - let _ ← self.num_entries - (Usize.ofInt 1) - Result.ret (Option.some x0) + | none => Result.ret none + | some x0 => do + let _ ← self.num_entries - 1#usize + Result.ret (some x0) /- [hashmap_main::hashmap::HashMap::{0}::remove]: backward function 0 -/ def hashmap.HashMap.remove_back @@ -418,75 +447,75 @@ def hashmap.HashMap.remove_back := do let hash ← hashmap.hash_key key - let i := Vec.len (hashmap.List T) self.slots + let i := alloc.vec.Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index_mut (hashmap.List T) self.slots hash_mod + let l ← + alloc.vec.Vec.index_mut (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List T)) + self.slots hash_mod let x ← hashmap.HashMap.remove_from_list T key l match x with - | Option.none => + | none => do let l0 ← hashmap.HashMap.remove_from_list_back T key l - let v ← Vec.index_mut_back (hashmap.List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) self.slots hash_mod l0 Result.ret { self with slots := v } - | Option.some x0 => + | some x0 => do - let i0 ← self.num_entries - (Usize.ofInt 1) + let i0 ← self.num_entries - 1#usize let l0 ← hashmap.HashMap.remove_from_list_back T key l - let v ← Vec.index_mut_back (hashmap.List T) self.slots hash_mod l0 + let v ← + alloc.vec.Vec.index_mut_back (hashmap.List T) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (hashmap.List + T)) self.slots hash_mod l0 Result.ret { self with num_entries := i0, slots := v } /- [hashmap_main::hashmap::test1]: forward function -/ def hashmap.test1 : Result Unit := do let hm ← hashmap.HashMap.new U64 - let hm0 ← hashmap.HashMap.insert U64 hm (Usize.ofInt 0) (U64.ofInt 42) - let hm1 ← hashmap.HashMap.insert U64 hm0 (Usize.ofInt 128) (U64.ofInt 18) - let hm2 ← - hashmap.HashMap.insert U64 hm1 (Usize.ofInt 1024) (U64.ofInt 138) - let hm3 ← - hashmap.HashMap.insert U64 hm2 (Usize.ofInt 1056) (U64.ofInt 256) - let i ← hashmap.HashMap.get U64 hm3 (Usize.ofInt 128) - if not (i = (U64.ofInt 18)) + let hm0 ← hashmap.HashMap.insert U64 hm 0#usize 42#u64 + let hm1 ← hashmap.HashMap.insert U64 hm0 128#usize 18#u64 + let hm2 ← hashmap.HashMap.insert U64 hm1 1024#usize 138#u64 + let hm3 ← hashmap.HashMap.insert U64 hm2 1056#usize 256#u64 + let i ← hashmap.HashMap.get U64 hm3 128#usize + if not (i = 18#u64) then Result.fail Error.panic else do - let hm4 ← - hashmap.HashMap.get_mut_back U64 hm3 (Usize.ofInt 1024) - (U64.ofInt 56) - let i0 ← hashmap.HashMap.get U64 hm4 (Usize.ofInt 1024) - if not (i0 = (U64.ofInt 56)) + let hm4 ← hashmap.HashMap.get_mut_back U64 hm3 1024#usize 56#u64 + let i0 ← hashmap.HashMap.get U64 hm4 1024#usize + if not (i0 = 56#u64) then Result.fail Error.panic else do - let x ← hashmap.HashMap.remove U64 hm4 (Usize.ofInt 1024) + let x ← hashmap.HashMap.remove U64 hm4 1024#usize match x with - | Option.none => Result.fail Error.panic - | Option.some x0 => - if not (x0 = (U64.ofInt 56)) + | none => Result.fail Error.panic + | some x0 => + if not (x0 = 56#u64) then Result.fail Error.panic else do - let hm5 ← - hashmap.HashMap.remove_back U64 hm4 (Usize.ofInt 1024) - let i1 ← hashmap.HashMap.get U64 hm5 (Usize.ofInt 0) - if not (i1 = (U64.ofInt 42)) + let hm5 ← hashmap.HashMap.remove_back U64 hm4 1024#usize + let i1 ← hashmap.HashMap.get U64 hm5 0#usize + if not (i1 = 42#u64) then Result.fail Error.panic else do - let i2 ← hashmap.HashMap.get U64 hm5 (Usize.ofInt 128) - if not (i2 = (U64.ofInt 18)) + let i2 ← hashmap.HashMap.get U64 hm5 128#usize + if not (i2 = 18#u64) then Result.fail Error.panic else do - let i3 ← - hashmap.HashMap.get U64 hm5 (Usize.ofInt 1056) - if not (i3 = (U64.ofInt 256)) + let i3 ← hashmap.HashMap.get U64 hm5 1056#usize + if not (i3 = 256#u64) then Result.fail Error.panic else Result.ret () -/- Unit test for [hashmap_main::hashmap::test1] -/ -#assert (hashmap.test1 == .ret ()) - /- [hashmap_main::insert_on_disk]: forward function -/ def insert_on_disk (key : Usize) (value : U64) (st : State) : Result (State × Unit) := @@ -500,7 +529,4 @@ def insert_on_disk def main : Result Unit := Result.ret () -/- Unit test for [hashmap_main::main] -/ -#assert (main == .ret ()) - end hashmap_main diff --git a/tests/lean/HashmapMain/Types.lean b/tests/lean/HashmapMain/Types.lean index 2b5cbd6c..065c109b 100644 --- a/tests/lean/HashmapMain/Types.lean +++ b/tests/lean/HashmapMain/Types.lean @@ -15,7 +15,7 @@ structure hashmap.HashMap (T : Type) where num_entries : Usize max_load_factor : (Usize × Usize) max_load : Usize - slots : Vec (hashmap.List T) + slots : alloc.vec.Vec (hashmap.List T) /- The state type used in the state-error monad -/ axiom State : Type diff --git a/tests/lean/Loops.lean b/tests/lean/Loops.lean index 60c73776..c6360338 100644 --- a/tests/lean/Loops.lean +++ b/tests/lean/Loops.lean @@ -1 +1,629 @@ -import Loops.Funs +-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS +-- [loops] +import Base +open Primitives + +namespace loops + +/- [loops::sum]: loop 0: forward function -/ +divergent def sum_loop (max : U32) (i : U32) (s : U32) : Result U32 := + if i < max + then do + let s0 ← s + i + let i0 ← i + 1#u32 + sum_loop max i0 s0 + else s * 2#u32 + +/- [loops::sum]: forward function -/ +def sum (max : U32) : Result U32 := + sum_loop max 0#u32 0#u32 + +/- [loops::sum_with_mut_borrows]: loop 0: forward function -/ +divergent def sum_with_mut_borrows_loop + (max : U32) (mi : U32) (ms : U32) : Result U32 := + if mi < max + then + do + let ms0 ← ms + mi + let mi0 ← mi + 1#u32 + sum_with_mut_borrows_loop max mi0 ms0 + else ms * 2#u32 + +/- [loops::sum_with_mut_borrows]: forward function -/ +def sum_with_mut_borrows (max : U32) : Result U32 := + sum_with_mut_borrows_loop max 0#u32 0#u32 + +/- [loops::sum_with_shared_borrows]: loop 0: forward function -/ +divergent def sum_with_shared_borrows_loop + (max : U32) (i : U32) (s : U32) : Result U32 := + if i < max + then + do + let i0 ← i + 1#u32 + let s0 ← s + i0 + sum_with_shared_borrows_loop max i0 s0 + else s * 2#u32 + +/- [loops::sum_with_shared_borrows]: forward function -/ +def sum_with_shared_borrows (max : U32) : Result U32 := + sum_with_shared_borrows_loop max 0#u32 0#u32 + +/- [loops::clear]: loop 0: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +divergent def clear_loop + (v : alloc.vec.Vec U32) (i : Usize) : Result (alloc.vec.Vec U32) := + let i0 := alloc.vec.Vec.len U32 v + if i < i0 + then + do + let i1 ← i + 1#usize + let v0 ← + alloc.vec.Vec.index_mut_back U32 Usize + (core.slice.index.usize.coresliceindexSliceIndexInst U32) v i 0#u32 + clear_loop v0 i1 + else Result.ret v + +/- [loops::clear]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def clear (v : alloc.vec.Vec U32) : Result (alloc.vec.Vec U32) := + clear_loop v 0#usize + +/- [loops::List] -/ +inductive List (T : Type) := +| Cons : T → List T → List T +| Nil : List T + +/- [loops::list_mem]: loop 0: forward function -/ +divergent def list_mem_loop (x : U32) (ls : List U32) : Result Bool := + match ls with + | List.Cons y tl => if y = x + then Result.ret true + else list_mem_loop x tl + | List.Nil => Result.ret false + +/- [loops::list_mem]: forward function -/ +def list_mem (x : U32) (ls : List U32) : Result Bool := + list_mem_loop x ls + +/- [loops::list_nth_mut_loop]: loop 0: forward function -/ +divergent def list_nth_mut_loop_loop + (T : Type) (ls : List T) (i : U32) : Result T := + match ls with + | List.Cons x tl => + if i = 0#u32 + then Result.ret x + else do + let i0 ← i - 1#u32 + list_nth_mut_loop_loop T tl i0 + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop]: forward function -/ +def list_nth_mut_loop (T : Type) (ls : List T) (i : U32) : Result T := + list_nth_mut_loop_loop T ls i + +/- [loops::list_nth_mut_loop]: loop 0: backward function 0 -/ +divergent def list_nth_mut_loop_loop_back + (T : Type) (ls : List T) (i : U32) (ret0 : T) : Result (List T) := + match ls with + | List.Cons x tl => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl) + else + do + let i0 ← i - 1#u32 + let tl0 ← list_nth_mut_loop_loop_back T tl i0 ret0 + Result.ret (List.Cons x tl0) + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop]: backward function 0 -/ +def list_nth_mut_loop_back + (T : Type) (ls : List T) (i : U32) (ret0 : T) : Result (List T) := + list_nth_mut_loop_loop_back T ls i ret0 + +/- [loops::list_nth_shared_loop]: loop 0: forward function -/ +divergent def list_nth_shared_loop_loop + (T : Type) (ls : List T) (i : U32) : Result T := + match ls with + | List.Cons x tl => + if i = 0#u32 + then Result.ret x + else do + let i0 ← i - 1#u32 + list_nth_shared_loop_loop T tl i0 + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_loop]: forward function -/ +def list_nth_shared_loop (T : Type) (ls : List T) (i : U32) : Result T := + list_nth_shared_loop_loop T ls i + +/- [loops::get_elem_mut]: loop 0: forward function -/ +divergent def get_elem_mut_loop (x : Usize) (ls : List Usize) : Result Usize := + match ls with + | List.Cons y tl => if y = x + then Result.ret y + else get_elem_mut_loop x tl + | List.Nil => Result.fail Error.panic + +/- [loops::get_elem_mut]: forward function -/ +def get_elem_mut + (slots : alloc.vec.Vec (List Usize)) (x : Usize) : Result Usize := + do + let l ← + alloc.vec.Vec.index_mut (List Usize) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List Usize)) + slots 0#usize + get_elem_mut_loop x l + +/- [loops::get_elem_mut]: loop 0: backward function 0 -/ +divergent def get_elem_mut_loop_back + (x : Usize) (ls : List Usize) (ret0 : Usize) : Result (List Usize) := + match ls with + | List.Cons y tl => + if y = x + then Result.ret (List.Cons ret0 tl) + else + do + let tl0 ← get_elem_mut_loop_back x tl ret0 + Result.ret (List.Cons y tl0) + | List.Nil => Result.fail Error.panic + +/- [loops::get_elem_mut]: backward function 0 -/ +def get_elem_mut_back + (slots : alloc.vec.Vec (List Usize)) (x : Usize) (ret0 : Usize) : + Result (alloc.vec.Vec (List Usize)) + := + do + let l ← + alloc.vec.Vec.index_mut (List Usize) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List Usize)) + slots 0#usize + let l0 ← get_elem_mut_loop_back x l ret0 + alloc.vec.Vec.index_mut_back (List Usize) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List Usize)) slots + 0#usize l0 + +/- [loops::get_elem_shared]: loop 0: forward function -/ +divergent def get_elem_shared_loop + (x : Usize) (ls : List Usize) : Result Usize := + match ls with + | List.Cons y tl => if y = x + then Result.ret y + else get_elem_shared_loop x tl + | List.Nil => Result.fail Error.panic + +/- [loops::get_elem_shared]: forward function -/ +def get_elem_shared + (slots : alloc.vec.Vec (List Usize)) (x : Usize) : Result Usize := + do + let l ← + alloc.vec.Vec.index (List Usize) Usize + (core.slice.index.usize.coresliceindexSliceIndexInst (List Usize)) + slots 0#usize + get_elem_shared_loop x l + +/- [loops::id_mut]: forward function -/ +def id_mut (T : Type) (ls : List T) : Result (List T) := + Result.ret ls + +/- [loops::id_mut]: backward function 0 -/ +def id_mut_back (T : Type) (ls : List T) (ret0 : List T) : Result (List T) := + Result.ret ret0 + +/- [loops::id_shared]: forward function -/ +def id_shared (T : Type) (ls : List T) : Result (List T) := + Result.ret ls + +/- [loops::list_nth_mut_loop_with_id]: loop 0: forward function -/ +divergent def list_nth_mut_loop_with_id_loop + (T : Type) (i : U32) (ls : List T) : Result T := + match ls with + | List.Cons x tl => + if i = 0#u32 + then Result.ret x + else do + let i0 ← i - 1#u32 + list_nth_mut_loop_with_id_loop T i0 tl + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_with_id]: forward function -/ +def list_nth_mut_loop_with_id (T : Type) (ls : List T) (i : U32) : Result T := + do + let ls0 ← id_mut T ls + list_nth_mut_loop_with_id_loop T i ls0 + +/- [loops::list_nth_mut_loop_with_id]: loop 0: backward function 0 -/ +divergent def list_nth_mut_loop_with_id_loop_back + (T : Type) (i : U32) (ls : List T) (ret0 : T) : Result (List T) := + match ls with + | List.Cons x tl => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl) + else + do + let i0 ← i - 1#u32 + let tl0 ← list_nth_mut_loop_with_id_loop_back T i0 tl ret0 + Result.ret (List.Cons x tl0) + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_with_id]: backward function 0 -/ +def list_nth_mut_loop_with_id_back + (T : Type) (ls : List T) (i : U32) (ret0 : T) : Result (List T) := + do + let ls0 ← id_mut T ls + let l ← list_nth_mut_loop_with_id_loop_back T i ls0 ret0 + id_mut_back T ls l + +/- [loops::list_nth_shared_loop_with_id]: loop 0: forward function -/ +divergent def list_nth_shared_loop_with_id_loop + (T : Type) (i : U32) (ls : List T) : Result T := + match ls with + | List.Cons x tl => + if i = 0#u32 + then Result.ret x + else do + let i0 ← i - 1#u32 + list_nth_shared_loop_with_id_loop T i0 tl + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_loop_with_id]: forward function -/ +def list_nth_shared_loop_with_id + (T : Type) (ls : List T) (i : U32) : Result T := + do + let ls0 ← id_shared T ls + list_nth_shared_loop_with_id_loop T i ls0 + +/- [loops::list_nth_mut_loop_pair]: loop 0: forward function -/ +divergent def list_nth_mut_loop_pair_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else do + let i0 ← i - 1#u32 + list_nth_mut_loop_pair_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_pair]: forward function -/ +def list_nth_mut_loop_pair + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_mut_loop_pair_loop T ls0 ls1 i + +/- [loops::list_nth_mut_loop_pair]: loop 0: backward function 0 -/ +divergent def list_nth_mut_loop_pair_loop_back'a + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl0) + else + do + let i0 ← i - 1#u32 + let tl00 ← list_nth_mut_loop_pair_loop_back'a T tl0 tl1 i0 ret0 + Result.ret (List.Cons x0 tl00) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_pair]: backward function 0 -/ +def list_nth_mut_loop_pair_back'a + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + list_nth_mut_loop_pair_loop_back'a T ls0 ls1 i ret0 + +/- [loops::list_nth_mut_loop_pair]: loop 0: backward function 1 -/ +divergent def list_nth_mut_loop_pair_loop_back'b + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl1) + else + do + let i0 ← i - 1#u32 + let tl10 ← list_nth_mut_loop_pair_loop_back'b T tl0 tl1 i0 ret0 + Result.ret (List.Cons x1 tl10) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_pair]: backward function 1 -/ +def list_nth_mut_loop_pair_back'b + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + list_nth_mut_loop_pair_loop_back'b T ls0 ls1 i ret0 + +/- [loops::list_nth_shared_loop_pair]: loop 0: forward function -/ +divergent def list_nth_shared_loop_pair_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else do + let i0 ← i - 1#u32 + list_nth_shared_loop_pair_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_loop_pair]: forward function -/ +def list_nth_shared_loop_pair + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_shared_loop_pair_loop T ls0 ls1 i + +/- [loops::list_nth_mut_loop_pair_merge]: loop 0: forward function -/ +divergent def list_nth_mut_loop_pair_merge_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else + do + let i0 ← i - 1#u32 + list_nth_mut_loop_pair_merge_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_pair_merge]: forward function -/ +def list_nth_mut_loop_pair_merge + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_mut_loop_pair_merge_loop T ls0 ls1 i + +/- [loops::list_nth_mut_loop_pair_merge]: loop 0: backward function 0 -/ +divergent def list_nth_mut_loop_pair_merge_loop_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : (T × T)) : + Result ((List T) × (List T)) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then let (t, t0) := ret0 + Result.ret (List.Cons t tl0, List.Cons t0 tl1) + else + do + let i0 ← i - 1#u32 + let (tl00, tl10) ← + list_nth_mut_loop_pair_merge_loop_back T tl0 tl1 i0 ret0 + Result.ret (List.Cons x0 tl00, List.Cons x1 tl10) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_loop_pair_merge]: backward function 0 -/ +def list_nth_mut_loop_pair_merge_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : (T × T)) : + Result ((List T) × (List T)) + := + list_nth_mut_loop_pair_merge_loop_back T ls0 ls1 i ret0 + +/- [loops::list_nth_shared_loop_pair_merge]: loop 0: forward function -/ +divergent def list_nth_shared_loop_pair_merge_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else + do + let i0 ← i - 1#u32 + list_nth_shared_loop_pair_merge_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_loop_pair_merge]: forward function -/ +def list_nth_shared_loop_pair_merge + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_shared_loop_pair_merge_loop T ls0 ls1 i + +/- [loops::list_nth_mut_shared_loop_pair]: loop 0: forward function -/ +divergent def list_nth_mut_shared_loop_pair_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else + do + let i0 ← i - 1#u32 + list_nth_mut_shared_loop_pair_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_shared_loop_pair]: forward function -/ +def list_nth_mut_shared_loop_pair + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_mut_shared_loop_pair_loop T ls0 ls1 i + +/- [loops::list_nth_mut_shared_loop_pair]: loop 0: backward function 0 -/ +divergent def list_nth_mut_shared_loop_pair_loop_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl0) + else + do + let i0 ← i - 1#u32 + let tl00 ← + list_nth_mut_shared_loop_pair_loop_back T tl0 tl1 i0 ret0 + Result.ret (List.Cons x0 tl00) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_shared_loop_pair]: backward function 0 -/ +def list_nth_mut_shared_loop_pair_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + list_nth_mut_shared_loop_pair_loop_back T ls0 ls1 i ret0 + +/- [loops::list_nth_mut_shared_loop_pair_merge]: loop 0: forward function -/ +divergent def list_nth_mut_shared_loop_pair_merge_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else + do + let i0 ← i - 1#u32 + list_nth_mut_shared_loop_pair_merge_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_shared_loop_pair_merge]: forward function -/ +def list_nth_mut_shared_loop_pair_merge + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_mut_shared_loop_pair_merge_loop T ls0 ls1 i + +/- [loops::list_nth_mut_shared_loop_pair_merge]: loop 0: backward function 0 -/ +divergent def list_nth_mut_shared_loop_pair_merge_loop_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl0) + else + do + let i0 ← i - 1#u32 + let tl00 ← + list_nth_mut_shared_loop_pair_merge_loop_back T tl0 tl1 i0 ret0 + Result.ret (List.Cons x0 tl00) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_mut_shared_loop_pair_merge]: backward function 0 -/ +def list_nth_mut_shared_loop_pair_merge_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + list_nth_mut_shared_loop_pair_merge_loop_back T ls0 ls1 i ret0 + +/- [loops::list_nth_shared_mut_loop_pair]: loop 0: forward function -/ +divergent def list_nth_shared_mut_loop_pair_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else + do + let i0 ← i - 1#u32 + list_nth_shared_mut_loop_pair_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_mut_loop_pair]: forward function -/ +def list_nth_shared_mut_loop_pair + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_shared_mut_loop_pair_loop T ls0 ls1 i + +/- [loops::list_nth_shared_mut_loop_pair]: loop 0: backward function 1 -/ +divergent def list_nth_shared_mut_loop_pair_loop_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl1) + else + do + let i0 ← i - 1#u32 + let tl10 ← + list_nth_shared_mut_loop_pair_loop_back T tl0 tl1 i0 ret0 + Result.ret (List.Cons x1 tl10) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_mut_loop_pair]: backward function 1 -/ +def list_nth_shared_mut_loop_pair_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + list_nth_shared_mut_loop_pair_loop_back T ls0 ls1 i ret0 + +/- [loops::list_nth_shared_mut_loop_pair_merge]: loop 0: forward function -/ +divergent def list_nth_shared_mut_loop_pair_merge_loop + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (x0, x1) + else + do + let i0 ← i - 1#u32 + list_nth_shared_mut_loop_pair_merge_loop T tl0 tl1 i0 + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_mut_loop_pair_merge]: forward function -/ +def list_nth_shared_mut_loop_pair_merge + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := + list_nth_shared_mut_loop_pair_merge_loop T ls0 ls1 i + +/- [loops::list_nth_shared_mut_loop_pair_merge]: loop 0: backward function 0 -/ +divergent def list_nth_shared_mut_loop_pair_merge_loop_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + match ls0 with + | List.Cons x0 tl0 => + match ls1 with + | List.Cons x1 tl1 => + if i = 0#u32 + then Result.ret (List.Cons ret0 tl1) + else + do + let i0 ← i - 1#u32 + let tl10 ← + list_nth_shared_mut_loop_pair_merge_loop_back T tl0 tl1 i0 ret0 + Result.ret (List.Cons x1 tl10) + | List.Nil => Result.fail Error.panic + | List.Nil => Result.fail Error.panic + +/- [loops::list_nth_shared_mut_loop_pair_merge]: backward function 0 -/ +def list_nth_shared_mut_loop_pair_merge_back + (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : + Result (List T) + := + list_nth_shared_mut_loop_pair_merge_loop_back T ls0 ls1 i ret0 + +end loops diff --git a/tests/lean/Loops/Funs.lean b/tests/lean/Loops/Funs.lean deleted file mode 100644 index 5fbe200f..00000000 --- a/tests/lean/Loops/Funs.lean +++ /dev/null @@ -1,612 +0,0 @@ --- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS --- [loops]: function definitions -import Base -import Loops.Types -open Primitives - -namespace loops - -/- [loops::sum]: loop 0: forward function -/ -divergent def sum_loop (max : U32) (i : U32) (s : U32) : Result U32 := - if i < max - then do - let s0 ← s + i - let i0 ← i + (U32.ofInt 1) - sum_loop max i0 s0 - else s * (U32.ofInt 2) - -/- [loops::sum]: forward function -/ -def sum (max : U32) : Result U32 := - sum_loop max (U32.ofInt 0) (U32.ofInt 0) - -/- [loops::sum_with_mut_borrows]: loop 0: forward function -/ -divergent def sum_with_mut_borrows_loop - (max : U32) (mi : U32) (ms : U32) : Result U32 := - if mi < max - then - do - let ms0 ← ms + mi - let mi0 ← mi + (U32.ofInt 1) - sum_with_mut_borrows_loop max mi0 ms0 - else ms * (U32.ofInt 2) - -/- [loops::sum_with_mut_borrows]: forward function -/ -def sum_with_mut_borrows (max : U32) : Result U32 := - sum_with_mut_borrows_loop max (U32.ofInt 0) (U32.ofInt 0) - -/- [loops::sum_with_shared_borrows]: loop 0: forward function -/ -divergent def sum_with_shared_borrows_loop - (max : U32) (i : U32) (s : U32) : Result U32 := - if i < max - then - do - let i0 ← i + (U32.ofInt 1) - let s0 ← s + i0 - sum_with_shared_borrows_loop max i0 s0 - else s * (U32.ofInt 2) - -/- [loops::sum_with_shared_borrows]: forward function -/ -def sum_with_shared_borrows (max : U32) : Result U32 := - sum_with_shared_borrows_loop max (U32.ofInt 0) (U32.ofInt 0) - -/- [loops::clear]: loop 0: merged forward/backward function - (there is a single backward function, and the forward function returns ()) -/ -divergent def clear_loop (v : Vec U32) (i : Usize) : Result (Vec U32) := - let i0 := Vec.len U32 v - if i < i0 - then - do - let i1 ← i + (Usize.ofInt 1) - let v0 ← Vec.index_mut_back U32 v i (U32.ofInt 0) - clear_loop v0 i1 - else Result.ret v - -/- [loops::clear]: merged forward/backward function - (there is a single backward function, and the forward function returns ()) -/ -def clear (v : Vec U32) : Result (Vec U32) := - clear_loop v (Usize.ofInt 0) - -/- [loops::list_mem]: loop 0: forward function -/ -divergent def list_mem_loop (x : U32) (ls : List U32) : Result Bool := - match ls with - | List.Cons y tl => if y = x - then Result.ret true - else list_mem_loop x tl - | List.Nil => Result.ret false - -/- [loops::list_mem]: forward function -/ -def list_mem (x : U32) (ls : List U32) : Result Bool := - list_mem_loop x ls - -/- [loops::list_nth_mut_loop]: loop 0: forward function -/ -divergent def list_nth_mut_loop_loop - (T : Type) (ls : List T) (i : U32) : Result T := - match ls with - | List.Cons x tl => - if i = (U32.ofInt 0) - then Result.ret x - else do - let i0 ← i - (U32.ofInt 1) - list_nth_mut_loop_loop T tl i0 - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop]: forward function -/ -def list_nth_mut_loop (T : Type) (ls : List T) (i : U32) : Result T := - list_nth_mut_loop_loop T ls i - -/- [loops::list_nth_mut_loop]: loop 0: backward function 0 -/ -divergent def list_nth_mut_loop_loop_back - (T : Type) (ls : List T) (i : U32) (ret0 : T) : Result (List T) := - match ls with - | List.Cons x tl => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl) - else - do - let i0 ← i - (U32.ofInt 1) - let tl0 ← list_nth_mut_loop_loop_back T tl i0 ret0 - Result.ret (List.Cons x tl0) - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop]: backward function 0 -/ -def list_nth_mut_loop_back - (T : Type) (ls : List T) (i : U32) (ret0 : T) : Result (List T) := - list_nth_mut_loop_loop_back T ls i ret0 - -/- [loops::list_nth_shared_loop]: loop 0: forward function -/ -divergent def list_nth_shared_loop_loop - (T : Type) (ls : List T) (i : U32) : Result T := - match ls with - | List.Cons x tl => - if i = (U32.ofInt 0) - then Result.ret x - else do - let i0 ← i - (U32.ofInt 1) - list_nth_shared_loop_loop T tl i0 - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_loop]: forward function -/ -def list_nth_shared_loop (T : Type) (ls : List T) (i : U32) : Result T := - list_nth_shared_loop_loop T ls i - -/- [loops::get_elem_mut]: loop 0: forward function -/ -divergent def get_elem_mut_loop (x : Usize) (ls : List Usize) : Result Usize := - match ls with - | List.Cons y tl => if y = x - then Result.ret y - else get_elem_mut_loop x tl - | List.Nil => Result.fail Error.panic - -/- [loops::get_elem_mut]: forward function -/ -def get_elem_mut (slots : Vec (List Usize)) (x : Usize) : Result Usize := - do - let l ← Vec.index_mut (List Usize) slots (Usize.ofInt 0) - get_elem_mut_loop x l - -/- [loops::get_elem_mut]: loop 0: backward function 0 -/ -divergent def get_elem_mut_loop_back - (x : Usize) (ls : List Usize) (ret0 : Usize) : Result (List Usize) := - match ls with - | List.Cons y tl => - if y = x - then Result.ret (List.Cons ret0 tl) - else - do - let tl0 ← get_elem_mut_loop_back x tl ret0 - Result.ret (List.Cons y tl0) - | List.Nil => Result.fail Error.panic - -/- [loops::get_elem_mut]: backward function 0 -/ -def get_elem_mut_back - (slots : Vec (List Usize)) (x : Usize) (ret0 : Usize) : - Result (Vec (List Usize)) - := - do - let l ← Vec.index_mut (List Usize) slots (Usize.ofInt 0) - let l0 ← get_elem_mut_loop_back x l ret0 - Vec.index_mut_back (List Usize) slots (Usize.ofInt 0) l0 - -/- [loops::get_elem_shared]: loop 0: forward function -/ -divergent def get_elem_shared_loop - (x : Usize) (ls : List Usize) : Result Usize := - match ls with - | List.Cons y tl => if y = x - then Result.ret y - else get_elem_shared_loop x tl - | List.Nil => Result.fail Error.panic - -/- [loops::get_elem_shared]: forward function -/ -def get_elem_shared (slots : Vec (List Usize)) (x : Usize) : Result Usize := - do - let l ← Vec.index_shared (List Usize) slots (Usize.ofInt 0) - get_elem_shared_loop x l - -/- [loops::id_mut]: forward function -/ -def id_mut (T : Type) (ls : List T) : Result (List T) := - Result.ret ls - -/- [loops::id_mut]: backward function 0 -/ -def id_mut_back (T : Type) (ls : List T) (ret0 : List T) : Result (List T) := - Result.ret ret0 - -/- [loops::id_shared]: forward function -/ -def id_shared (T : Type) (ls : List T) : Result (List T) := - Result.ret ls - -/- [loops::list_nth_mut_loop_with_id]: loop 0: forward function -/ -divergent def list_nth_mut_loop_with_id_loop - (T : Type) (i : U32) (ls : List T) : Result T := - match ls with - | List.Cons x tl => - if i = (U32.ofInt 0) - then Result.ret x - else do - let i0 ← i - (U32.ofInt 1) - list_nth_mut_loop_with_id_loop T i0 tl - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_with_id]: forward function -/ -def list_nth_mut_loop_with_id (T : Type) (ls : List T) (i : U32) : Result T := - do - let ls0 ← id_mut T ls - list_nth_mut_loop_with_id_loop T i ls0 - -/- [loops::list_nth_mut_loop_with_id]: loop 0: backward function 0 -/ -divergent def list_nth_mut_loop_with_id_loop_back - (T : Type) (i : U32) (ls : List T) (ret0 : T) : Result (List T) := - match ls with - | List.Cons x tl => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl) - else - do - let i0 ← i - (U32.ofInt 1) - let tl0 ← list_nth_mut_loop_with_id_loop_back T i0 tl ret0 - Result.ret (List.Cons x tl0) - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_with_id]: backward function 0 -/ -def list_nth_mut_loop_with_id_back - (T : Type) (ls : List T) (i : U32) (ret0 : T) : Result (List T) := - do - let ls0 ← id_mut T ls - let l ← list_nth_mut_loop_with_id_loop_back T i ls0 ret0 - id_mut_back T ls l - -/- [loops::list_nth_shared_loop_with_id]: loop 0: forward function -/ -divergent def list_nth_shared_loop_with_id_loop - (T : Type) (i : U32) (ls : List T) : Result T := - match ls with - | List.Cons x tl => - if i = (U32.ofInt 0) - then Result.ret x - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_shared_loop_with_id_loop T i0 tl - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_loop_with_id]: forward function -/ -def list_nth_shared_loop_with_id - (T : Type) (ls : List T) (i : U32) : Result T := - do - let ls0 ← id_shared T ls - list_nth_shared_loop_with_id_loop T i ls0 - -/- [loops::list_nth_mut_loop_pair]: loop 0: forward function -/ -divergent def list_nth_mut_loop_pair_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_mut_loop_pair_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_pair]: forward function -/ -def list_nth_mut_loop_pair - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_mut_loop_pair_loop T ls0 ls1 i - -/- [loops::list_nth_mut_loop_pair]: loop 0: backward function 0 -/ -divergent def list_nth_mut_loop_pair_loop_back'a - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl0) - else - do - let i0 ← i - (U32.ofInt 1) - let tl00 ← list_nth_mut_loop_pair_loop_back'a T tl0 tl1 i0 ret0 - Result.ret (List.Cons x0 tl00) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_pair]: backward function 0 -/ -def list_nth_mut_loop_pair_back'a - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - list_nth_mut_loop_pair_loop_back'a T ls0 ls1 i ret0 - -/- [loops::list_nth_mut_loop_pair]: loop 0: backward function 1 -/ -divergent def list_nth_mut_loop_pair_loop_back'b - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl1) - else - do - let i0 ← i - (U32.ofInt 1) - let tl10 ← list_nth_mut_loop_pair_loop_back'b T tl0 tl1 i0 ret0 - Result.ret (List.Cons x1 tl10) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_pair]: backward function 1 -/ -def list_nth_mut_loop_pair_back'b - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - list_nth_mut_loop_pair_loop_back'b T ls0 ls1 i ret0 - -/- [loops::list_nth_shared_loop_pair]: loop 0: forward function -/ -divergent def list_nth_shared_loop_pair_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_shared_loop_pair_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_loop_pair]: forward function -/ -def list_nth_shared_loop_pair - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_shared_loop_pair_loop T ls0 ls1 i - -/- [loops::list_nth_mut_loop_pair_merge]: loop 0: forward function -/ -divergent def list_nth_mut_loop_pair_merge_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_mut_loop_pair_merge_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_pair_merge]: forward function -/ -def list_nth_mut_loop_pair_merge - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_mut_loop_pair_merge_loop T ls0 ls1 i - -/- [loops::list_nth_mut_loop_pair_merge]: loop 0: backward function 0 -/ -divergent def list_nth_mut_loop_pair_merge_loop_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : (T × T)) : - Result ((List T) × (List T)) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then let (t, t0) := ret0 - Result.ret (List.Cons t tl0, List.Cons t0 tl1) - else - do - let i0 ← i - (U32.ofInt 1) - let (tl00, tl10) ← - list_nth_mut_loop_pair_merge_loop_back T tl0 tl1 i0 ret0 - Result.ret (List.Cons x0 tl00, List.Cons x1 tl10) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_loop_pair_merge]: backward function 0 -/ -def list_nth_mut_loop_pair_merge_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : (T × T)) : - Result ((List T) × (List T)) - := - list_nth_mut_loop_pair_merge_loop_back T ls0 ls1 i ret0 - -/- [loops::list_nth_shared_loop_pair_merge]: loop 0: forward function -/ -divergent def list_nth_shared_loop_pair_merge_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_shared_loop_pair_merge_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_loop_pair_merge]: forward function -/ -def list_nth_shared_loop_pair_merge - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_shared_loop_pair_merge_loop T ls0 ls1 i - -/- [loops::list_nth_mut_shared_loop_pair]: loop 0: forward function -/ -divergent def list_nth_mut_shared_loop_pair_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_mut_shared_loop_pair_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_shared_loop_pair]: forward function -/ -def list_nth_mut_shared_loop_pair - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_mut_shared_loop_pair_loop T ls0 ls1 i - -/- [loops::list_nth_mut_shared_loop_pair]: loop 0: backward function 0 -/ -divergent def list_nth_mut_shared_loop_pair_loop_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl0) - else - do - let i0 ← i - (U32.ofInt 1) - let tl00 ← - list_nth_mut_shared_loop_pair_loop_back T tl0 tl1 i0 ret0 - Result.ret (List.Cons x0 tl00) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_shared_loop_pair]: backward function 0 -/ -def list_nth_mut_shared_loop_pair_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - list_nth_mut_shared_loop_pair_loop_back T ls0 ls1 i ret0 - -/- [loops::list_nth_mut_shared_loop_pair_merge]: loop 0: forward function -/ -divergent def list_nth_mut_shared_loop_pair_merge_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_mut_shared_loop_pair_merge_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_shared_loop_pair_merge]: forward function -/ -def list_nth_mut_shared_loop_pair_merge - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_mut_shared_loop_pair_merge_loop T ls0 ls1 i - -/- [loops::list_nth_mut_shared_loop_pair_merge]: loop 0: backward function 0 -/ -divergent def list_nth_mut_shared_loop_pair_merge_loop_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl0) - else - do - let i0 ← i - (U32.ofInt 1) - let tl00 ← - list_nth_mut_shared_loop_pair_merge_loop_back T tl0 tl1 i0 ret0 - Result.ret (List.Cons x0 tl00) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_mut_shared_loop_pair_merge]: backward function 0 -/ -def list_nth_mut_shared_loop_pair_merge_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - list_nth_mut_shared_loop_pair_merge_loop_back T ls0 ls1 i ret0 - -/- [loops::list_nth_shared_mut_loop_pair]: loop 0: forward function -/ -divergent def list_nth_shared_mut_loop_pair_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_shared_mut_loop_pair_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_mut_loop_pair]: forward function -/ -def list_nth_shared_mut_loop_pair - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_shared_mut_loop_pair_loop T ls0 ls1 i - -/- [loops::list_nth_shared_mut_loop_pair]: loop 0: backward function 1 -/ -divergent def list_nth_shared_mut_loop_pair_loop_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl1) - else - do - let i0 ← i - (U32.ofInt 1) - let tl10 ← - list_nth_shared_mut_loop_pair_loop_back T tl0 tl1 i0 ret0 - Result.ret (List.Cons x1 tl10) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_mut_loop_pair]: backward function 1 -/ -def list_nth_shared_mut_loop_pair_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - list_nth_shared_mut_loop_pair_loop_back T ls0 ls1 i ret0 - -/- [loops::list_nth_shared_mut_loop_pair_merge]: loop 0: forward function -/ -divergent def list_nth_shared_mut_loop_pair_merge_loop - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (x0, x1) - else - do - let i0 ← i - (U32.ofInt 1) - list_nth_shared_mut_loop_pair_merge_loop T tl0 tl1 i0 - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_mut_loop_pair_merge]: forward function -/ -def list_nth_shared_mut_loop_pair_merge - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) : Result (T × T) := - list_nth_shared_mut_loop_pair_merge_loop T ls0 ls1 i - -/- [loops::list_nth_shared_mut_loop_pair_merge]: loop 0: backward function 0 -/ -divergent def list_nth_shared_mut_loop_pair_merge_loop_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - match ls0 with - | List.Cons x0 tl0 => - match ls1 with - | List.Cons x1 tl1 => - if i = (U32.ofInt 0) - then Result.ret (List.Cons ret0 tl1) - else - do - let i0 ← i - (U32.ofInt 1) - let tl10 ← - list_nth_shared_mut_loop_pair_merge_loop_back T tl0 tl1 i0 ret0 - Result.ret (List.Cons x1 tl10) - | List.Nil => Result.fail Error.panic - | List.Nil => Result.fail Error.panic - -/- [loops::list_nth_shared_mut_loop_pair_merge]: backward function 0 -/ -def list_nth_shared_mut_loop_pair_merge_back - (T : Type) (ls0 : List T) (ls1 : List T) (i : U32) (ret0 : T) : - Result (List T) - := - list_nth_shared_mut_loop_pair_merge_loop_back T ls0 ls1 i ret0 - -end loops diff --git a/tests/lean/Loops/Types.lean b/tests/lean/Loops/Types.lean deleted file mode 100644 index 018af901..00000000 --- a/tests/lean/Loops/Types.lean +++ /dev/null @@ -1,13 +0,0 @@ --- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS --- [loops]: type definitions -import Base -open Primitives - -namespace loops - -/- [loops::List] -/ -inductive List (T : Type) := -| Cons : T → List T → List T -| Nil : List T - -end loops diff --git a/tests/lean/NoNestedBorrows.lean b/tests/lean/NoNestedBorrows.lean index 884e62c4..c4a6a265 100644 --- a/tests/lean/NoNestedBorrows.lean +++ b/tests/lean/NoNestedBorrows.lean @@ -54,12 +54,24 @@ def div_test (x : U32) (y : U32) : Result U32 := /- [no_nested_borrows::div_test1]: forward function -/ def div_test1 (x : U32) : Result U32 := - x / (U32.ofInt 2) + x / 2#u32 /- [no_nested_borrows::rem_test]: forward function -/ def rem_test (x : U32) (y : U32) : Result U32 := x % y +/- [no_nested_borrows::mul_test]: forward function -/ +def mul_test (x : U32) (y : U32) : Result U32 := + x * y + +/- [no_nested_borrows::CONST0] -/ +def const0_body : Result Usize := 1#usize + 1#usize +def const0_c : Usize := eval_global const0_body (by simp) + +/- [no_nested_borrows::CONST1] -/ +def const1_body : Result Usize := 2#usize * 2#usize +def const1_c : Usize := eval_global const1_body (by simp) + /- [no_nested_borrows::cast_test]: forward function -/ def cast_test (x : U32) : Result I32 := Scalar.cast .I32 x @@ -67,7 +79,7 @@ def cast_test (x : U32) : Result I32 := /- [no_nested_borrows::test2]: forward function -/ def test2 : Result Unit := do - let _ ← (U32.ofInt 23) + (U32.ofInt 44) + let _ ← 23#u32 + 44#u32 Result.ret () /- Unit test for [no_nested_borrows::test2] -/ @@ -82,10 +94,10 @@ def get_max (x : U32) (y : U32) : Result U32 := /- [no_nested_borrows::test3]: forward function -/ def test3 : Result Unit := do - let x ← get_max (U32.ofInt 4) (U32.ofInt 3) - let y ← get_max (U32.ofInt 10) (U32.ofInt 11) + let x ← get_max 4#u32 3#u32 + let y ← get_max 10#u32 11#u32 let z ← x + y - if not (z = (U32.ofInt 15)) + if not (z = 15#u32) then Result.fail Error.panic else Result.ret () @@ -95,8 +107,8 @@ def test3 : Result Unit := /- [no_nested_borrows::test_neg1]: forward function -/ def test_neg1 : Result Unit := do - let y ← - (I32.ofInt 3) - if not (y = (I32.ofInt (-(3:Int)))) + let y ← - 3#i32 + if not (y = (-(3:Int))#i32) then Result.fail Error.panic else Result.ret () @@ -105,7 +117,7 @@ def test_neg1 : Result Unit := /- [no_nested_borrows::refs_test1]: forward function -/ def refs_test1 : Result Unit := - if not ((I32.ofInt 1) = (I32.ofInt 1)) + if not (1#i32 = 1#i32) then Result.fail Error.panic else Result.ret () @@ -114,16 +126,16 @@ def refs_test1 : Result Unit := /- [no_nested_borrows::refs_test2]: forward function -/ def refs_test2 : Result Unit := - if not ((I32.ofInt 2) = (I32.ofInt 2)) + if not (2#i32 = 2#i32) then Result.fail Error.panic else - if not ((I32.ofInt 0) = (I32.ofInt 0)) + if not (0#i32 = 0#i32) then Result.fail Error.panic else - if not ((I32.ofInt 2) = (I32.ofInt 2)) + if not (2#i32 = 2#i32) then Result.fail Error.panic else - if not ((I32.ofInt 2) = (I32.ofInt 2)) + if not (2#i32 = 2#i32) then Result.fail Error.panic else Result.ret () @@ -139,9 +151,9 @@ def test_list1 : Result Unit := /- [no_nested_borrows::test_box1]: forward function -/ def test_box1 : Result Unit := - let b := (I32.ofInt 1) + let b := 1#i32 let x := b - if not (x = (I32.ofInt 1)) + if not (x = 1#i32) then Result.fail Error.panic else Result.ret () @@ -167,8 +179,8 @@ def test_panic (b : Bool) : Result Unit := /- [no_nested_borrows::test_copy_int]: forward function -/ def test_copy_int : Result Unit := do - let y ← copy_int (I32.ofInt 0) - if not ((I32.ofInt 0) = y) + let y ← copy_int 0#i32 + if not (0#i32 = y) then Result.fail Error.panic else Result.ret () @@ -185,7 +197,7 @@ def is_cons (T : Type) (l : List T) : Result Bool := def test_is_cons : Result Unit := do let l := List.Nil - let b ← is_cons I32 (List.Cons (I32.ofInt 0) l) + let b ← is_cons I32 (List.Cons 0#i32 l) if not b then Result.fail Error.panic else Result.ret () @@ -203,9 +215,9 @@ def split_list (T : Type) (l : List T) : Result (T × (List T)) := def test_split_list : Result Unit := do let l := List.Nil - let p ← split_list I32 (List.Cons (I32.ofInt 0) l) + let p ← split_list I32 (List.Cons 0#i32 l) let (hd, _) := p - if not (hd = (I32.ofInt 0)) + if not (hd = 0#i32) then Result.fail Error.panic else Result.ret () @@ -228,19 +240,18 @@ def choose_back /- [no_nested_borrows::choose_test]: forward function -/ def choose_test : Result Unit := do - let z ← choose I32 true (I32.ofInt 0) (I32.ofInt 0) - let z0 ← z + (I32.ofInt 1) - if not (z0 = (I32.ofInt 1)) + let z ← choose I32 true 0#i32 0#i32 + let z0 ← z + 1#i32 + if not (z0 = 1#i32) then Result.fail Error.panic else do - let (x, y) ← choose_back I32 true (I32.ofInt 0) (I32.ofInt 0) z0 - if not (x = (I32.ofInt 1)) + let (x, y) ← choose_back I32 true 0#i32 0#i32 z0 + if not (x = 1#i32) then Result.fail Error.panic - else - if not (y = (I32.ofInt 0)) - then Result.fail Error.panic - else Result.ret () + else if not (y = 0#i32) + then Result.fail Error.panic + else Result.ret () /- Unit test for [no_nested_borrows::choose_test] -/ #assert (choose_test == .ret ()) @@ -268,17 +279,17 @@ divergent def list_length (T : Type) (l : List T) : Result U32 := match l with | List.Cons t l1 => do let i ← list_length T l1 - (U32.ofInt 1) + i - | List.Nil => Result.ret (U32.ofInt 0) + 1#u32 + i + | List.Nil => Result.ret 0#u32 /- [no_nested_borrows::list_nth_shared]: forward function -/ divergent def list_nth_shared (T : Type) (l : List T) (i : U32) : Result T := match l with | List.Cons x tl => - if i = (U32.ofInt 0) + if i = 0#u32 then Result.ret x else do - let i0 ← i - (U32.ofInt 1) + let i0 ← i - 1#u32 list_nth_shared T tl i0 | List.Nil => Result.fail Error.panic @@ -286,10 +297,10 @@ divergent def list_nth_shared (T : Type) (l : List T) (i : U32) : Result T := divergent def list_nth_mut (T : Type) (l : List T) (i : U32) : Result T := match l with | List.Cons x tl => - if i = (U32.ofInt 0) + if i = 0#u32 then Result.ret x else do - let i0 ← i - (U32.ofInt 1) + let i0 ← i - 1#u32 list_nth_mut T tl i0 | List.Nil => Result.fail Error.panic @@ -298,11 +309,11 @@ divergent def list_nth_mut_back (T : Type) (l : List T) (i : U32) (ret0 : T) : Result (List T) := match l with | List.Cons x tl => - if i = (U32.ofInt 0) + if i = 0#u32 then Result.ret (List.Cons ret0 tl) else do - let i0 ← i - (U32.ofInt 1) + let i0 ← i - 1#u32 let tl0 ← list_nth_mut_back T tl i0 ret0 Result.ret (List.Cons x tl0) | List.Nil => Result.fail Error.panic @@ -317,54 +328,49 @@ divergent def list_rev_aux /- [no_nested_borrows::list_rev]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def list_rev (T : Type) (l : List T) : Result (List T) := - let li := mem.replace (List T) l List.Nil + let li := core.mem.replace (List T) l List.Nil list_rev_aux T li List.Nil /- [no_nested_borrows::test_list_functions]: forward function -/ def test_list_functions : Result Unit := do let l := List.Nil - let l0 := List.Cons (I32.ofInt 2) l - let l1 := List.Cons (I32.ofInt 1) l0 - let i ← list_length I32 (List.Cons (I32.ofInt 0) l1) - if not (i = (U32.ofInt 3)) + let l0 := List.Cons 2#i32 l + let l1 := List.Cons 1#i32 l0 + let i ← list_length I32 (List.Cons 0#i32 l1) + if not (i = 3#u32) then Result.fail Error.panic else do - let i0 ← - list_nth_shared I32 (List.Cons (I32.ofInt 0) l1) (U32.ofInt 0) - if not (i0 = (I32.ofInt 0)) + let i0 ← list_nth_shared I32 (List.Cons 0#i32 l1) 0#u32 + if not (i0 = 0#i32) then Result.fail Error.panic else do - let i1 ← - list_nth_shared I32 (List.Cons (I32.ofInt 0) l1) (U32.ofInt 1) - if not (i1 = (I32.ofInt 1)) + let i1 ← list_nth_shared I32 (List.Cons 0#i32 l1) 1#u32 + if not (i1 = 1#i32) then Result.fail Error.panic else do - let i2 ← - list_nth_shared I32 (List.Cons (I32.ofInt 0) l1) - (U32.ofInt 2) - if not (i2 = (I32.ofInt 2)) + let i2 ← list_nth_shared I32 (List.Cons 0#i32 l1) 2#u32 + if not (i2 = 2#i32) then Result.fail Error.panic else do let ls ← - list_nth_mut_back I32 (List.Cons (I32.ofInt 0) l1) - (U32.ofInt 1) (I32.ofInt 3) - let i3 ← list_nth_shared I32 ls (U32.ofInt 0) - if not (i3 = (I32.ofInt 0)) + list_nth_mut_back I32 (List.Cons 0#i32 l1) 1#u32 3#i32 + let i3 ← list_nth_shared I32 ls 0#u32 + if not (i3 = 0#i32) then Result.fail Error.panic else do - let i4 ← list_nth_shared I32 ls (U32.ofInt 1) - if not (i4 = (I32.ofInt 3)) + let i4 ← list_nth_shared I32 ls 1#u32 + if not (i4 = 3#i32) then Result.fail Error.panic else do - let i5 ← list_nth_shared I32 ls (U32.ofInt 2) - if not (i5 = (I32.ofInt 2)) + let i5 ← list_nth_shared I32 ls 2#u32 + if not (i5 = 2#i32) then Result.fail Error.panic else Result.ret () @@ -427,15 +433,15 @@ structure StructWithTuple (T1 T2 : Type) where /- [no_nested_borrows::new_tuple1]: forward function -/ def new_tuple1 : Result (StructWithTuple U32 U32) := - Result.ret { p := ((U32.ofInt 1), (U32.ofInt 2)) } + Result.ret { p := (1#u32, 2#u32) } /- [no_nested_borrows::new_tuple2]: forward function -/ def new_tuple2 : Result (StructWithTuple I16 I16) := - Result.ret { p := ((I16.ofInt 1), (I16.ofInt 2)) } + Result.ret { p := (1#i16, 2#i16) } /- [no_nested_borrows::new_tuple3]: forward function -/ def new_tuple3 : Result (StructWithTuple U64 I64) := - Result.ret { p := ((U64.ofInt 1), (I64.ofInt 2)) } + Result.ret { p := (1#u64, 2#i64) } /- [no_nested_borrows::StructWithPair] -/ structure StructWithPair (T1 T2 : Type) where @@ -443,31 +449,31 @@ structure StructWithPair (T1 T2 : Type) where /- [no_nested_borrows::new_pair1]: forward function -/ def new_pair1 : Result (StructWithPair U32 U32) := - Result.ret { p := { x := (U32.ofInt 1), y := (U32.ofInt 2) } } + Result.ret { p := { x := 1#u32, y := 2#u32 } } /- [no_nested_borrows::test_constants]: forward function -/ def test_constants : Result Unit := do let swt ← new_tuple1 let (i, _) := swt.p - if not (i = (U32.ofInt 1)) + if not (i = 1#u32) then Result.fail Error.panic else do let swt0 ← new_tuple2 let (i0, _) := swt0.p - if not (i0 = (I16.ofInt 1)) + if not (i0 = 1#i16) then Result.fail Error.panic else do let swt1 ← new_tuple3 let (i1, _) := swt1.p - if not (i1 = (U64.ofInt 1)) + if not (i1 = 1#u64) then Result.fail Error.panic else do let swp ← new_pair1 - if not (swp.p.x = (U32.ofInt 1)) + if not (swp.p.x = 1#u32) then Result.fail Error.panic else Result.ret () @@ -484,29 +490,29 @@ def test_weird_borrows1 : Result Unit := /- [no_nested_borrows::test_mem_replace]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def test_mem_replace (px : U32) : Result U32 := - let y := mem.replace U32 px (U32.ofInt 1) - if not (y = (U32.ofInt 0)) + let y := core.mem.replace U32 px 1#u32 + if not (y = 0#u32) then Result.fail Error.panic - else Result.ret (U32.ofInt 2) + else Result.ret 2#u32 /- [no_nested_borrows::test_shared_borrow_bool1]: forward function -/ def test_shared_borrow_bool1 (b : Bool) : Result U32 := if b - then Result.ret (U32.ofInt 0) - else Result.ret (U32.ofInt 1) + then Result.ret 0#u32 + else Result.ret 1#u32 /- [no_nested_borrows::test_shared_borrow_bool2]: forward function -/ def test_shared_borrow_bool2 : Result U32 := - Result.ret (U32.ofInt 0) + Result.ret 0#u32 /- [no_nested_borrows::test_shared_borrow_enum1]: forward function -/ def test_shared_borrow_enum1 (l : List U32) : Result U32 := match l with - | List.Cons i l0 => Result.ret (U32.ofInt 1) - | List.Nil => Result.ret (U32.ofInt 0) + | List.Cons i l0 => Result.ret 1#u32 + | List.Nil => Result.ret 0#u32 /- [no_nested_borrows::test_shared_borrow_enum2]: forward function -/ def test_shared_borrow_enum2 : Result U32 := - Result.ret (U32.ofInt 0) + Result.ret 0#u32 end no_nested_borrows diff --git a/tests/lean/Paper.lean b/tests/lean/Paper.lean index c15c5e4b..ae4dd243 100644 --- a/tests/lean/Paper.lean +++ b/tests/lean/Paper.lean @@ -8,13 +8,13 @@ namespace paper /- [paper::ref_incr]: merged forward/backward function (there is a single backward function, and the forward function returns ()) -/ def ref_incr (x : I32) : Result I32 := - x + (I32.ofInt 1) + x + 1#i32 /- [paper::test_incr]: forward function -/ def test_incr : Result Unit := do - let x ← ref_incr (I32.ofInt 0) - if not (x = (I32.ofInt 1)) + let x ← ref_incr 0#i32 + if not (x = 1#i32) then Result.fail Error.panic else Result.ret () @@ -37,19 +37,18 @@ def choose_back /- [paper::test_choose]: forward function -/ def test_choose : Result Unit := do - let z ← choose I32 true (I32.ofInt 0) (I32.ofInt 0) - let z0 ← z + (I32.ofInt 1) - if not (z0 = (I32.ofInt 1)) + let z ← choose I32 true 0#i32 0#i32 + let z0 ← z + 1#i32 + if not (z0 = 1#i32) then Result.fail Error.panic else do - let (x, y) ← choose_back I32 true (I32.ofInt 0) (I32.ofInt 0) z0 - if not (x = (I32.ofInt 1)) + let (x, y) ← choose_back I32 true 0#i32 0#i32 z0 + if not (x = 1#i32) then Result.fail Error.panic - else - if not (y = (I32.ofInt 0)) - then Result.fail Error.panic - else Result.ret () + else if not (y = 0#i32) + then Result.fail Error.panic + else Result.ret () /- Unit test for [paper::test_choose] -/ #assert (test_choose == .ret ()) @@ -63,10 +62,10 @@ inductive List (T : Type) := divergent def list_nth_mut (T : Type) (l : List T) (i : U32) : Result T := match l with | List.Cons x tl => - if i = (U32.ofInt 0) + if i = 0#u32 then Result.ret x else do - let i0 ← i - (U32.ofInt 1) + let i0 ← i - 1#u32 list_nth_mut T tl i0 | List.Nil => Result.fail Error.panic @@ -75,11 +74,11 @@ divergent def list_nth_mut_back (T : Type) (l : List T) (i : U32) (ret0 : T) : Result (List T) := match l with | List.Cons x tl => - if i = (U32.ofInt 0) + if i = 0#u32 then Result.ret (List.Cons ret0 tl) else do - let i0 ← i - (U32.ofInt 1) + let i0 ← i - 1#u32 let tl0 ← list_nth_mut_back T tl i0 ret0 Result.ret (List.Cons x tl0) | List.Nil => Result.fail Error.panic @@ -90,20 +89,19 @@ divergent def sum (l : List I32) : Result I32 := | List.Cons x tl => do let i ← sum tl x + i - | List.Nil => Result.ret (I32.ofInt 0) + | List.Nil => Result.ret 0#i32 /- [paper::test_nth]: forward function -/ def test_nth : Result Unit := do let l := List.Nil - let l0 := List.Cons (I32.ofInt 3) l - let l1 := List.Cons (I32.ofInt 2) l0 - let x ← list_nth_mut I32 (List.Cons (I32.ofInt 1) l1) (U32.ofInt 2) - let x0 ← x + (I32.ofInt 1) - let l2 ← - list_nth_mut_back I32 (List.Cons (I32.ofInt 1) l1) (U32.ofInt 2) x0 + let l0 := List.Cons 3#i32 l + let l1 := List.Cons 2#i32 l0 + let x ← list_nth_mut I32 (List.Cons 1#i32 l1) 2#u32 + let x0 ← x + 1#i32 + let l2 ← list_nth_mut_back I32 (List.Cons 1#i32 l1) 2#u32 x0 let i ← sum l2 - if not (i = (I32.ofInt 7)) + if not (i = 7#i32) then Result.fail Error.panic else Result.ret () @@ -115,7 +113,7 @@ def call_choose (p : (U32 × U32)) : Result U32 := do let (px, py) := p let pz ← choose U32 true px py - let pz0 ← pz + (U32.ofInt 1) + let pz0 ← pz + 1#u32 let (px0, _) ← choose_back U32 true px py pz0 Result.ret px0 diff --git a/tests/lean/Traits.lean b/tests/lean/Traits.lean new file mode 100644 index 00000000..12e7eafa --- /dev/null +++ b/tests/lean/Traits.lean @@ -0,0 +1,383 @@ +-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS +-- [traits] +import Base +open Primitives + +namespace traits + +/- Trait declaration: [traits::BoolTrait] -/ +structure BoolTrait (Self : Type) where + get_bool : Self → Result Bool + +/- [traits::Bool::{0}::get_bool]: forward function -/ +def Bool.get_bool (self : Bool) : Result Bool := + Result.ret self + +/- Trait implementation: [traits::Bool::{0}] -/ +def Bool.BoolTraitInst : BoolTrait Bool := { + get_bool := Bool.get_bool +} + +/- [traits::BoolTrait::ret_true]: forward function -/ +def BoolTrait.ret_true + {Self : Type} (self_clause : BoolTrait Self) (self : Self) : Result Bool := + Result.ret true + +/- [traits::test_bool_trait_bool]: forward function -/ +def test_bool_trait_bool (x : Bool) : Result Bool := + do + let b ← Bool.get_bool x + if b + then BoolTrait.ret_true Bool.BoolTraitInst x + else Result.ret false + +/- [traits::Option::{1}::get_bool]: forward function -/ +def Option.get_bool (T : Type) (self : Option T) : Result Bool := + match self with + | none => Result.ret false + | some t => Result.ret true + +/- Trait implementation: [traits::Option::{1}] -/ +def Option.BoolTraitInst (T : Type) : BoolTrait (Option T) := { + get_bool := Option.get_bool T +} + +/- [traits::test_bool_trait_option]: forward function -/ +def test_bool_trait_option (T : Type) (x : Option T) : Result Bool := + do + let b ← Option.get_bool T x + if b + then BoolTrait.ret_true (Option.BoolTraitInst T) x + else Result.ret false + +/- [traits::test_bool_trait]: forward function -/ +def test_bool_trait (T : Type) (inst : BoolTrait T) (x : T) : Result Bool := + inst.get_bool x + +/- Trait declaration: [traits::ToU64] -/ +structure ToU64 (Self : Type) where + to_u64 : Self → Result U64 + +/- [traits::u64::{2}::to_u64]: forward function -/ +def u64.to_u64 (self : U64) : Result U64 := + Result.ret self + +/- Trait implementation: [traits::u64::{2}] -/ +def u64.ToU64Inst : ToU64 U64 := { + to_u64 := u64.to_u64 +} + +/- [traits::Tuple2::{3}::to_u64]: forward function -/ +def Tuple2.to_u64 (A : Type) (inst : ToU64 A) (self : (A × A)) : Result U64 := + do + let (t, t0) := self + let i ← inst.to_u64 t + let i0 ← inst.to_u64 t0 + i + i0 + +/- Trait implementation: [traits::Tuple2::{3}] -/ +def Tuple2.ToU64Inst (A : Type) (inst : ToU64 A) : ToU64 (A × A) := { + to_u64 := Tuple2.to_u64 A inst +} + +/- [traits::f]: forward function -/ +def f (T : Type) (inst : ToU64 T) (x : (T × T)) : Result U64 := + Tuple2.to_u64 T inst x + +/- [traits::g]: forward function -/ +def g (T : Type) (inst : ToU64 (T × T)) (x : (T × T)) : Result U64 := + inst.to_u64 x + +/- [traits::h0]: forward function -/ +def h0 (x : U64) : Result U64 := + u64.to_u64 x + +/- [traits::Wrapper] -/ +structure Wrapper (T : Type) where + x : T + +/- [traits::Wrapper::{4}::to_u64]: forward function -/ +def Wrapper.to_u64 + (T : Type) (inst : ToU64 T) (self : Wrapper T) : Result U64 := + inst.to_u64 self.x + +/- Trait implementation: [traits::Wrapper::{4}] -/ +def Wrapper.ToU64Inst (T : Type) (inst : ToU64 T) : ToU64 (Wrapper T) := { + to_u64 := Wrapper.to_u64 T inst +} + +/- [traits::h1]: forward function -/ +def h1 (x : Wrapper U64) : Result U64 := + Wrapper.to_u64 U64 u64.ToU64Inst x + +/- [traits::h2]: forward function -/ +def h2 (T : Type) (inst : ToU64 T) (x : Wrapper T) : Result U64 := + Wrapper.to_u64 T inst x + +/- Trait declaration: [traits::ToType] -/ +structure ToType (Self T : Type) where + to_type : Self → Result T + +/- [traits::u64::{5}::to_type]: forward function -/ +def u64.to_type (self : U64) : Result Bool := + Result.ret (self > 0#u64) + +/- Trait implementation: [traits::u64::{5}] -/ +def u64.ToTypeInst : ToType U64 Bool := { + to_type := u64.to_type +} + +/- Trait declaration: [traits::OfType] -/ +structure OfType (Self : Type) where + of_type : forall (T : Type) (inst : ToType T Self), T → Result Self + +/- [traits::h3]: forward function -/ +def h3 + (T1 T2 : Type) (inst : OfType T1) (inst0 : ToType T2 T1) (y : T2) : + Result T1 + := + inst.of_type T2 inst0 y + +/- Trait declaration: [traits::OfTypeBis] -/ +structure OfTypeBis (Self T : Type) where + parent_clause_0 : ToType T Self + of_type : T → Result Self + +/- [traits::h4]: forward function -/ +def h4 + (T1 T2 : Type) (inst : OfTypeBis T1 T2) (inst0 : ToType T2 T1) (y : T2) : + Result T1 + := + inst.of_type y + +/- [traits::TestType] -/ +structure TestType (T : Type) where + _0 : T + +/- [traits::TestType::{6}::test::TestType1] -/ +structure TestType.test.TestType1 where + _0 : U64 + +/- Trait declaration: [traits::TestType::{6}::test::TestTrait] -/ +structure TestType.test.TestTrait (Self : Type) where + test : Self → Result Bool + +/- [traits::TestType::{6}::test::TestType1::{0}::test]: forward function -/ +def TestType.test.TestType1.test + (self : TestType.test.TestType1) : Result Bool := + Result.ret (self._0 > 1#u64) + +/- Trait implementation: [traits::TestType::{6}::test::TestType1::{0}] -/ +def TestType.test.TestType1.TestTypetestTestTraitInst : TestType.test.TestTrait + TestType.test.TestType1 := { + test := TestType.test.TestType1.test +} + +/- [traits::TestType::{6}::test]: forward function -/ +def TestType.test + (T : Type) (inst : ToU64 T) (self : TestType T) (x : T) : Result Bool := + do + let x0 ← inst.to_u64 x + if x0 > 0#u64 + then TestType.test.TestType1.test { _0 := 0#u64 } + else Result.ret false + +/- [traits::BoolWrapper] -/ +structure BoolWrapper where + _0 : Bool + +/- [traits::BoolWrapper::{7}::to_type]: forward function -/ +def BoolWrapper.to_type + (T : Type) (inst : ToType Bool T) (self : BoolWrapper) : Result T := + inst.to_type self._0 + +/- Trait implementation: [traits::BoolWrapper::{7}] -/ +def BoolWrapper.ToTypeInst (T : Type) (inst : ToType Bool T) : ToType + BoolWrapper T := { + to_type := BoolWrapper.to_type T inst +} + +/- [traits::WithConstTy::LEN2] -/ +def with_const_ty_len2_body : Result Usize := Result.ret 32#usize +def with_const_ty_len2_c : Usize := + eval_global with_const_ty_len2_body (by simp) + +/- Trait declaration: [traits::WithConstTy] -/ +structure WithConstTy (Self : Type) (LEN : Usize) where + LEN1 : Usize + LEN2 : Usize + V : Type + W : Type + W_clause_0 : ToU64 W + f : W → Array U8 LEN → Result W + +/- [traits::Bool::{8}::LEN1] -/ +def bool_len1_body : Result Usize := Result.ret 12#usize +def bool_len1_c : Usize := eval_global bool_len1_body (by simp) + +/- [traits::Bool::{8}::f]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def Bool.f (i : U64) (a : Array U8 32#usize) : Result U64 := + Result.ret i + +/- Trait implementation: [traits::Bool::{8}] -/ +def Bool.WithConstTyInst : WithConstTy Bool 32#usize := { + LEN1 := bool_len1_c + LEN2 := with_const_ty_len2_c + V := U8 + W := U64 + W_clause_0 := u64.ToU64Inst + f := Bool.f +} + +/- [traits::use_with_const_ty1]: forward function -/ +def use_with_const_ty1 + (H : Type) (LEN : Usize) (inst : WithConstTy H LEN) : Result Usize := + let i := inst.LEN1 + Result.ret i + +/- [traits::use_with_const_ty2]: forward function -/ +def use_with_const_ty2 + (H : Type) (LEN : Usize) (inst : WithConstTy H LEN) (w : inst.W) : + Result Unit + := + Result.ret () + +/- [traits::use_with_const_ty3]: forward function -/ +def use_with_const_ty3 + (H : Type) (LEN : Usize) (inst : WithConstTy H LEN) (x : inst.W) : + Result U64 + := + inst.W_clause_0.to_u64 x + +/- [traits::test_where1]: forward function -/ +def test_where1 (T : Type) (_x : T) : Result Unit := + Result.ret () + +/- [traits::test_where2]: forward function -/ +def test_where2 + (T : Type) (inst : WithConstTy T 32#usize) (_x : U32) : Result Unit := + Result.ret () + +/- [alloc::string::String] -/ +axiom alloc.string.String : Type + +/- Trait declaration: [traits::ParentTrait0] -/ +structure ParentTrait0 (Self : Type) where + W : Type + get_name : Self → Result alloc.string.String + get_w : Self → Result W + +/- Trait declaration: [traits::ParentTrait1] -/ +structure ParentTrait1 (Self : Type) where + +/- Trait declaration: [traits::ChildTrait] -/ +structure ChildTrait (Self : Type) where + parent_clause_0 : ParentTrait0 Self + parent_clause_1 : ParentTrait1 Self + +/- [traits::test_child_trait1]: forward function -/ +def test_child_trait1 + (T : Type) (inst : ChildTrait T) (x : T) : Result alloc.string.String := + inst.parent_clause_0.get_name x + +/- [traits::test_child_trait2]: forward function -/ +def test_child_trait2 + (T : Type) (inst : ChildTrait T) (x : T) : Result inst.parent_clause_0.W := + inst.parent_clause_0.get_w x + +/- [traits::order1]: forward function -/ +def order1 + (T U : Type) (inst : ParentTrait0 T) (inst0 : ParentTrait0 U) : + Result Unit + := + Result.ret () + +/- Trait declaration: [traits::ChildTrait1] -/ +structure ChildTrait1 (Self : Type) where + parent_clause_0 : ParentTrait1 Self + +/- Trait implementation: [traits::usize::{9}] -/ +def usize.ParentTrait1Inst : ParentTrait1 Usize := { +} + +/- Trait implementation: [traits::usize::{10}] -/ +def usize.ChildTrait1Inst : ChildTrait1 Usize := { + parent_clause_0 := usize.ParentTrait1Inst +} + +/- Trait declaration: [traits::Iterator] -/ +structure Iterator (Self : Type) where + Item : Type + +/- Trait declaration: [traits::IntoIterator] -/ +structure IntoIterator (Self : Type) where + Item : Type + IntoIter : Type + IntoIter_clause_0 : Iterator IntoIter + into_iter : Self → Result IntoIter + +/- Trait declaration: [traits::FromResidual] -/ +structure FromResidual (Self T : Type) where + +/- Trait declaration: [traits::Try] -/ +structure Try (Self : Type) where + Residual : Type + parent_clause_0 : FromResidual Self Residual + +/- Trait declaration: [traits::WithTarget] -/ +structure WithTarget (Self : Type) where + Target : Type + +/- Trait declaration: [traits::ParentTrait2] -/ +structure ParentTrait2 (Self : Type) where + U : Type + U_clause_0 : WithTarget U + +/- Trait declaration: [traits::ChildTrait2] -/ +structure ChildTrait2 (Self : Type) where + parent_clause_0 : ParentTrait2 Self + convert : parent_clause_0.U → Result parent_clause_0.U_clause_0.Target + +/- Trait implementation: [traits::u32::{11}] -/ +def u32.WithTargetInst : WithTarget U32 := { + Target := U32 +} + +/- Trait implementation: [traits::u32::{12}] -/ +def u32.ParentTrait2Inst : ParentTrait2 U32 := { + U := U32 + U_clause_0 := u32.WithTargetInst +} + +/- [traits::u32::{13}::convert]: forward function -/ +def u32.convert (x : U32) : Result U32 := + Result.ret x + +/- Trait implementation: [traits::u32::{13}] -/ +def u32.ChildTrait2Inst : ChildTrait2 U32 := { + parent_clause_0 := u32.ParentTrait2Inst + convert := u32.convert +} + +/- [traits::incr_u32]: forward function -/ +def incr_u32 (x : U32) : Result U32 := + x + 1#u32 + +/- Trait declaration: [traits::CFnOnce] -/ +structure CFnOnce (Self Args : Type) where + Output : Type + call_once : Self → Args → Result Output + +/- Trait declaration: [traits::CFnMut] -/ +structure CFnMut (Self Args : Type) where + parent_clause_0 : CFnOnce Self Args + call_mut : Self → Args → Result parent_clause_0.Output + call_mut_back : Self → Args → parent_clause_0.Output → Result Self + +/- Trait declaration: [traits::CFn] -/ +structure CFn (Self Args : Type) where + parent_clause_0 : CFnMut Self Args + call_mut : Self → Args → Result parent_clause_0.parent_clause_0.Output + +end traits diff --git a/tests/lean/lakefile.lean b/tests/lean/lakefile.lean index 8acf6973..fef94971 100644 --- a/tests/lean/lakefile.lean +++ b/tests/lean/lakefile.lean @@ -19,3 +19,4 @@ package «tests» {} @[default_target] lean_lib paper @[default_target] lean_lib poloniusList @[default_target] lean_lib array +@[default_target] lean_lib traits |