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-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS
-- [hashmap_main]: function definitions
import Base
import HashmapMain.Types
import HashmapMain.FunsExternal
open Primitives

namespace hashmap_main

/- [hashmap_main::hashmap::hash_key]: forward function -/
def hashmap.hash_key (k : Usize) : Result Usize :=
  Result.ret k

/- [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))
  :=
  if n > (Usize.ofInt 0)
  then
    do
      let slots0  Vec.push (hashmap.List T) slots hashmap.List.Nil
      let n0  n - (Usize.ofInt 1)
      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))
  :=
  hashmap.HashMap.allocate_slots_loop T slots n

/- [hashmap_main::hashmap::HashMap::{0}::new_with_capacity]: forward function -/
def hashmap.HashMap.new_with_capacity
  (T : Type) (capacity : Usize) (max_load_dividend : Usize)
  (max_load_divisor : Usize) :
  Result (hashmap.HashMap T)
  :=
  do
    let v := 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),
        max_load_factor := (max_load_dividend, max_load_divisor),
        max_load := i0,
        slots := slots
      }

/- [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_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))
  :=
  let i0 := Vec.len (hashmap.List T) slots
  if i < i0
  then
    do
      let i1  i + (Usize.ofInt 1)
      let slots0 
        Vec.index_mut_back (hashmap.List T) slots i hashmap.List.Nil
      hashmap.HashMap.clear_loop T slots0 i1
  else Result.ret slots

/- [hashmap_main::hashmap::HashMap::{0}::clear]: merged forward/backward function
   (there is a single backward function, and the forward function returns ()) -/
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 }

/- [hashmap_main::hashmap::HashMap::{0}::len]: forward function -/
def hashmap.HashMap.len (T : Type) (self : hashmap.HashMap T) : Result Usize :=
  Result.ret self.num_entries

/- [hashmap_main::hashmap::HashMap::{0}::insert_in_list]: loop 0: forward function -/
divergent def hashmap.HashMap.insert_in_list_loop
  (T : Type) (key : Usize) (value : T) (ls : hashmap.List T) : Result Bool :=
  match ls with
  | hashmap.List.Cons ckey cvalue tl =>
    if ckey = key
    then Result.ret false
    else hashmap.HashMap.insert_in_list_loop T key value tl
  | hashmap.List.Nil => Result.ret true

/- [hashmap_main::hashmap::HashMap::{0}::insert_in_list]: forward function -/
def hashmap.HashMap.insert_in_list
  (T : Type) (key : Usize) (value : T) (ls : hashmap.List T) : Result Bool :=
  hashmap.HashMap.insert_in_list_loop T key value ls

/- [hashmap_main::hashmap::HashMap::{0}::insert_in_list]: loop 0: backward function 0 -/
divergent def hashmap.HashMap.insert_in_list_loop_back
  (T : Type) (key : Usize) (value : T) (ls : hashmap.List T) :
  Result (hashmap.List T)
  :=
  match ls with
  | hashmap.List.Cons ckey cvalue tl =>
    if ckey = key
    then Result.ret (hashmap.List.Cons ckey value tl)
    else
      do
        let tl0  hashmap.HashMap.insert_in_list_loop_back T key value tl
        Result.ret (hashmap.List.Cons ckey cvalue tl0)
  | hashmap.List.Nil =>
    let l := hashmap.List.Nil
    Result.ret (hashmap.List.Cons key value l)

/- [hashmap_main::hashmap::HashMap::{0}::insert_in_list]: backward function 0 -/
def hashmap.HashMap.insert_in_list_back
  (T : Type) (key : Usize) (value : T) (ls : hashmap.List T) :
  Result (hashmap.List T)
  :=
  hashmap.HashMap.insert_in_list_loop_back T key value ls

/- [hashmap_main::hashmap::HashMap::{0}::insert_no_resize]: merged forward/backward function
   (there is a single backward function, and the forward function returns ()) -/
def hashmap.HashMap.insert_no_resize
  (T : Type) (self : hashmap.HashMap T) (key : Usize) (value : T) :
  Result (hashmap.HashMap T)
  :=
  do
    let hash  hashmap.hash_key key
    let i := 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 inserted  hashmap.HashMap.insert_in_list T key value l
    if inserted
    then
      do
        let i0  self.num_entries + (Usize.ofInt 1)
        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
        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
        Result.ret { self with slots := v }

/- [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
  (T : Type) (ntable : hashmap.HashMap T) (ls : hashmap.List T) :
  Result (hashmap.HashMap T)
  :=
  match ls with
  | hashmap.List.Cons k v tl =>
    do
      let ntable0  hashmap.HashMap.insert_no_resize T ntable k v
      hashmap.HashMap.move_elements_from_list_loop T ntable0 tl
  | hashmap.List.Nil => Result.ret ntable

/- [hashmap_main::hashmap::HashMap::{0}::move_elements_from_list]: merged forward/backward function
   (there is a single backward function, and the forward function returns ()) -/
def hashmap.HashMap.move_elements_from_list
  (T : Type) (ntable : hashmap.HashMap T) (ls : hashmap.List T) :
  Result (hashmap.HashMap T)
  :=
  hashmap.HashMap.move_elements_from_list_loop T ntable ls

/- [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)))
  :=
  let i0 := 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 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
      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)))
  :=
  hashmap.HashMap.move_elements_loop T ntable slots i

/- [hashmap_main::hashmap::HashMap::{0}::try_resize]: merged forward/backward function
   (there is a single backward function, and the forward function returns ()) -/
def hashmap.HashMap.try_resize
  (T : Type) (self : hashmap.HashMap T) : Result (hashmap.HashMap T) :=
  do
    let max_usize  Scalar.cast .Usize core_u32_max
    let capacity := Vec.len (hashmap.List T) self.slots
    let n1  max_usize / (Usize.ofInt 2)
    let (i, i0) := self.max_load_factor
    let i1  n1 / i
    if capacity <= i1
    then
      do
        let i2  capacity * (Usize.ofInt 2)
        let ntable  hashmap.HashMap.new_with_capacity T i2 i i0
        let (ntable0, _) 
          hashmap.HashMap.move_elements T ntable self.slots (Usize.ofInt 0)
        Result.ret
          {
            ntable0
              with
              num_entries := self.num_entries, max_load_factor := (i, i0)
          }
    else Result.ret { self with max_load_factor := (i, i0) }

/- [hashmap_main::hashmap::HashMap::{0}::insert]: merged forward/backward function
   (there is a single backward function, and the forward function returns ()) -/
def hashmap.HashMap.insert
  (T : Type) (self : hashmap.HashMap T) (key : Usize) (value : T) :
  Result (hashmap.HashMap T)
  :=
  do
    let self0  hashmap.HashMap.insert_no_resize T self key value
    let i  hashmap.HashMap.len T self0
    if i > self0.max_load
    then hashmap.HashMap.try_resize T self0
    else Result.ret self0

/- [hashmap_main::hashmap::HashMap::{0}::contains_key_in_list]: loop 0: forward function -/
divergent def hashmap.HashMap.contains_key_in_list_loop
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result Bool :=
  match ls with
  | hashmap.List.Cons ckey t tl =>
    if ckey = key
    then Result.ret true
    else hashmap.HashMap.contains_key_in_list_loop T key tl
  | hashmap.List.Nil => Result.ret false

/- [hashmap_main::hashmap::HashMap::{0}::contains_key_in_list]: forward function -/
def hashmap.HashMap.contains_key_in_list
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result Bool :=
  hashmap.HashMap.contains_key_in_list_loop T key ls

/- [hashmap_main::hashmap::HashMap::{0}::contains_key]: forward function -/
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 hash_mod  hash % i
    let l  Vec.index_shared (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 -/
divergent def hashmap.HashMap.get_in_list_loop
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result T :=
  match ls with
  | hashmap.List.Cons ckey cvalue tl =>
    if ckey = key
    then Result.ret cvalue
    else hashmap.HashMap.get_in_list_loop T key tl
  | hashmap.List.Nil => Result.fail Error.panic

/- [hashmap_main::hashmap::HashMap::{0}::get_in_list]: forward function -/
def hashmap.HashMap.get_in_list
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result T :=
  hashmap.HashMap.get_in_list_loop T key ls

/- [hashmap_main::hashmap::HashMap::{0}::get]: forward function -/
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 hash_mod  hash % i
    let l  Vec.index_shared (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 -/
divergent def hashmap.HashMap.get_mut_in_list_loop
  (T : Type) (ls : hashmap.List T) (key : Usize) : Result T :=
  match ls with
  | hashmap.List.Cons ckey cvalue tl =>
    if ckey = key
    then Result.ret cvalue
    else hashmap.HashMap.get_mut_in_list_loop T tl key
  | hashmap.List.Nil => Result.fail Error.panic

/- [hashmap_main::hashmap::HashMap::{0}::get_mut_in_list]: forward function -/
def hashmap.HashMap.get_mut_in_list
  (T : Type) (ls : hashmap.List T) (key : Usize) : Result T :=
  hashmap.HashMap.get_mut_in_list_loop T ls key

/- [hashmap_main::hashmap::HashMap::{0}::get_mut_in_list]: loop 0: backward function 0 -/
divergent def hashmap.HashMap.get_mut_in_list_loop_back
  (T : Type) (ls : hashmap.List T) (key : Usize) (ret0 : T) :
  Result (hashmap.List T)
  :=
  match ls with
  | hashmap.List.Cons ckey cvalue tl =>
    if ckey = key
    then Result.ret (hashmap.List.Cons ckey ret0 tl)
    else
      do
        let tl0  hashmap.HashMap.get_mut_in_list_loop_back T tl key ret0
        Result.ret (hashmap.List.Cons ckey cvalue tl0)
  | hashmap.List.Nil => Result.fail Error.panic

/- [hashmap_main::hashmap::HashMap::{0}::get_mut_in_list]: backward function 0 -/
def hashmap.HashMap.get_mut_in_list_back
  (T : Type) (ls : hashmap.List T) (key : Usize) (ret0 : T) :
  Result (hashmap.List T)
  :=
  hashmap.HashMap.get_mut_in_list_loop_back T ls key ret0

/- [hashmap_main::hashmap::HashMap::{0}::get_mut]: forward function -/
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 hash_mod  hash % i
    let l  Vec.index_mut (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 -/
def hashmap.HashMap.get_mut_back
  (T : Type) (self : hashmap.HashMap T) (key : Usize) (ret0 : T) :
  Result (hashmap.HashMap T)
  :=
  do
    let hash  hashmap.hash_key key
    let i := 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 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
    Result.ret { self with slots := v }

/- [hashmap_main::hashmap::HashMap::{0}::remove_from_list]: loop 0: forward function -/
divergent def hashmap.HashMap.remove_from_list_loop
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result (Option T) :=
  match ls with
  | hashmap.List.Cons ckey t tl =>
    if ckey = key
    then
      let mv_ls :=
        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.Nil => Result.fail Error.panic
    else hashmap.HashMap.remove_from_list_loop T key tl
  | hashmap.List.Nil => Result.ret Option.none

/- [hashmap_main::hashmap::HashMap::{0}::remove_from_list]: forward function -/
def hashmap.HashMap.remove_from_list
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result (Option T) :=
  hashmap.HashMap.remove_from_list_loop T key ls

/- [hashmap_main::hashmap::HashMap::{0}::remove_from_list]: loop 0: backward function 1 -/
divergent def hashmap.HashMap.remove_from_list_loop_back
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result (hashmap.List T) :=
  match ls with
  | hashmap.List.Cons ckey t tl =>
    if ckey = key
    then
      let mv_ls :=
        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
      | hashmap.List.Nil => Result.fail Error.panic
    else
      do
        let tl0  hashmap.HashMap.remove_from_list_loop_back T key tl
        Result.ret (hashmap.List.Cons ckey t tl0)
  | hashmap.List.Nil => Result.ret hashmap.List.Nil

/- [hashmap_main::hashmap::HashMap::{0}::remove_from_list]: backward function 1 -/
def hashmap.HashMap.remove_from_list_back
  (T : Type) (key : Usize) (ls : hashmap.List T) : Result (hashmap.List T) :=
  hashmap.HashMap.remove_from_list_loop_back T key ls

/- [hashmap_main::hashmap::HashMap::{0}::remove]: forward function -/
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 hash_mod  hash % i
    let l  Vec.index_mut (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)

/- [hashmap_main::hashmap::HashMap::{0}::remove]: backward function 0 -/
def hashmap.HashMap.remove_back
  (T : Type) (self : hashmap.HashMap T) (key : Usize) :
  Result (hashmap.HashMap T)
  :=
  do
    let hash  hashmap.hash_key key
    let i := 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 x  hashmap.HashMap.remove_from_list T key l
    match x with
    | Option.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
        Result.ret { self with slots := v }
    | Option.some x0 =>
      do
        let i0  self.num_entries - (Usize.ofInt 1)
        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
        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))
    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))
        then Result.fail Error.panic
        else
          do
            let x  hashmap.HashMap.remove U64 hm4 (Usize.ofInt 1024)
            match x with
            | Option.none => Result.fail Error.panic
            | Option.some x0 =>
              if not (x0 = (U64.ofInt 56))
              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))
                  then Result.fail Error.panic
                  else
                    do
                      let i2  hashmap.HashMap.get U64 hm5 (Usize.ofInt 128)
                      if not (i2 = (U64.ofInt 18))
                      then Result.fail Error.panic
                      else
                        do
                          let i3 
                            hashmap.HashMap.get U64 hm5 (Usize.ofInt 1056)
                          if not (i3 = (U64.ofInt 256))
                          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) :=
  do
    let (st0, hm)  hashmap_utils.deserialize st
    let hm0  hashmap.HashMap.insert U64 hm key value
    let (st1, _)  hashmap_utils.serialize hm0 st0
    Result.ret (st1, ())

/- [hashmap_main::main]: forward function -/
def main : Result Unit :=
  Result.ret ()

/- Unit test for [hashmap_main::main] -/
#assert (main == .ret ())

end hashmap_main