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-rw-r--r--tests/lean/Hashmap/Funs.lean217
1 files changed, 132 insertions, 85 deletions
diff --git a/tests/lean/Hashmap/Funs.lean b/tests/lean/Hashmap/Funs.lean
index 01c61de4..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 :=
@@ -115,21 +124,30 @@ 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 }
/- [hashmap::HashMap::{0}::move_elements_from_list]: loop 0: merged forward/backward function
@@ -152,27 +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
@@ -181,17 +207,16 @@ def HashMap.move_elements
def HashMap.try_resize (T : Type) (self : HashMap T) : Result (HashMap T) :=
do
let max_usize ← Scalar.cast .Usize core_u32_max
- let capacity := Vec.len (List T) self.slots
- let n1 ← max_usize / (Usize.ofInt 2)
+ 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
@@ -233,9 +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 -/
@@ -256,9 +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 -/
@@ -298,9 +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 -/
@@ -310,11 +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 -/
@@ -324,12 +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
@@ -343,7 +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
@@ -363,84 +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