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|
-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS
-- [betree_main]: function definitions
import Base
import BetreeMain.Types
import BetreeMain.FunsExternal
open Primitives
namespace betree_main
/- [betree_main::betree::load_internal_node]: forward function -/
def betree.load_internal_node
(id : U64) (st : State) :
Result (State × (betree.List (U64 × betree.Message)))
:=
betree_utils.load_internal_node id st
/- [betree_main::betree::store_internal_node]: forward function -/
def betree.store_internal_node
(id : U64) (content : betree.List (U64 × betree.Message)) (st : State) :
Result (State × Unit)
:=
do
let (st0, _) ← betree_utils.store_internal_node id content st
Result.ret (st0, ())
/- [betree_main::betree::load_leaf_node]: forward function -/
def betree.load_leaf_node
(id : U64) (st : State) : Result (State × (betree.List (U64 × U64))) :=
betree_utils.load_leaf_node id st
/- [betree_main::betree::store_leaf_node]: forward function -/
def betree.store_leaf_node
(id : U64) (content : betree.List (U64 × U64)) (st : State) :
Result (State × Unit)
:=
do
let (st0, _) ← betree_utils.store_leaf_node id content st
Result.ret (st0, ())
/- [betree_main::betree::fresh_node_id]: forward function -/
def betree.fresh_node_id (counter : U64) : Result U64 :=
do
let _ ← counter + (U64.ofInt 1)
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)
/- [betree_main::betree::NodeIdCounter::{0}::new]: forward function -/
def betree.NodeIdCounter.new : Result betree.NodeIdCounter :=
Result.ret { next_node_id := (U64.ofInt 0) }
/- [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)
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)
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 =>
match st with
| betree.UpsertFunState.Add v => Result.ret v
| betree.UpsertFunState.Sub i => Result.ret (U64.ofInt 0)
| Option.some prev0 =>
match st with
| betree.UpsertFunState.Add v =>
do
let margin ← core_num_u64_max_c - prev0
if margin >= v
then prev0 + v
else Result.ret core_num_u64_max_c
| betree.UpsertFunState.Sub v =>
if prev0 >= v
then prev0 - v
else Result.ret (U64.ofInt 0)
/- [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_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)
then Result.ret (betree.List.Nil, self)
else
match self with
| betree.List.Cons hd tl =>
do
let i ← n - (U64.ofInt 1)
let p ← betree.List.split_at T tl i
let (ls0, ls1) := p
let l := ls0
Result.ret (betree.List.Cons hd l, ls1)
| betree.List.Nil => Result.fail Error.panic
/- [betree_main::betree::List::{1}::push_front]: merged forward/backward function
(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 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
match ls with
| betree.List.Cons x tl => Result.ret x
| betree.List.Nil => Result.fail Error.panic
/- [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
match ls with
| betree.List.Cons x tl => Result.ret tl
| betree.List.Nil => Result.fail Error.panic
/- [betree_main::betree::List::{1}::hd]: forward function -/
def betree.List.hd (T : Type) (self : betree.List T) : Result T :=
match self with
| betree.List.Cons hd l => Result.ret hd
| betree.List.Nil => Result.fail Error.panic
/- [betree_main::betree::List::{2}::head_has_key]: forward function -/
def betree.List.head_has_key
(T : Type) (self : betree.List (U64 × T)) (key : U64) : Result Bool :=
match self with
| betree.List.Cons hd l => let (i, _) := hd
Result.ret (i = key)
| betree.List.Nil => Result.ret false
/- [betree_main::betree::List::{2}::partition_at_pivot]: forward function -/
divergent def betree.List.partition_at_pivot
(T : Type) (self : betree.List (U64 × T)) (pivot : U64) :
Result ((betree.List (U64 × T)) × (betree.List (U64 × T)))
:=
match self with
| betree.List.Cons hd tl =>
let (i, t) := hd
if i >= pivot
then Result.ret (betree.List.Nil, betree.List.Cons (i, t) tl)
else
do
let p ← betree.List.partition_at_pivot T tl pivot
let (ls0, ls1) := p
let l := ls0
Result.ret (betree.List.Cons (i, t) l, ls1)
| betree.List.Nil => Result.ret (betree.List.Nil, betree.List.Nil)
/- [betree_main::betree::Leaf::{3}::split]: forward function -/
def betree.Leaf.split
(self : betree.Leaf) (content : betree.List (U64 × U64))
(params : betree.Params) (node_id_cnt : betree.NodeIdCounter) (st : State) :
Result (State × betree.Internal)
:=
do
let p ← betree.List.split_at (U64 × U64) content params.split_size
let (content0, content1) := p
let p0 ← betree.List.hd (U64 × U64) content1
let (pivot, _) := p0
let id0 ← betree.NodeIdCounter.fresh_id node_id_cnt
let node_id_cnt0 ← betree.NodeIdCounter.fresh_id_back node_id_cnt
let id1 ← betree.NodeIdCounter.fresh_id node_id_cnt0
let (st0, _) ← betree.store_leaf_node id0 content0 st
let (st1, _) ← betree.store_leaf_node id1 content1 st0
let n := betree.Node.Leaf { id := id0, size := params.split_size }
let n0 := betree.Node.Leaf { id := id1, size := params.split_size }
Result.ret (st1, betree.Internal.mk self.id pivot n n0)
/- [betree_main::betree::Leaf::{3}::split]: backward function 2 -/
def betree.Leaf.split_back
(self : betree.Leaf) (content : betree.List (U64 × U64))
(params : betree.Params) (node_id_cnt : betree.NodeIdCounter) (st : State) :
Result betree.NodeIdCounter
:=
do
let p ← betree.List.split_at (U64 × U64) content params.split_size
let (content0, content1) := p
let _ ← betree.List.hd (U64 × U64) content1
let id0 ← betree.NodeIdCounter.fresh_id node_id_cnt
let node_id_cnt0 ← betree.NodeIdCounter.fresh_id_back node_id_cnt
let id1 ← betree.NodeIdCounter.fresh_id node_id_cnt0
let (st0, _) ← betree.store_leaf_node id0 content0 st
let _ ← betree.store_leaf_node id1 content1 st0
betree.NodeIdCounter.fresh_id_back node_id_cnt0
/- [betree_main::betree::Node::{5}::lookup_first_message_for_key]: forward function -/
divergent def betree.Node.lookup_first_message_for_key
(key : U64) (msgs : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × betree.Message))
:=
match msgs with
| betree.List.Cons x next_msgs =>
let (i, m) := x
if i >= key
then Result.ret (betree.List.Cons (i, m) next_msgs)
else betree.Node.lookup_first_message_for_key key next_msgs
| betree.List.Nil => Result.ret betree.List.Nil
/- [betree_main::betree::Node::{5}::lookup_first_message_for_key]: backward function 0 -/
divergent def betree.Node.lookup_first_message_for_key_back
(key : U64) (msgs : betree.List (U64 × betree.Message))
(ret0 : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × betree.Message))
:=
match msgs with
| betree.List.Cons x next_msgs =>
let (i, m) := x
if i >= key
then Result.ret ret0
else
do
let next_msgs0 ←
betree.Node.lookup_first_message_for_key_back key next_msgs ret0
Result.ret (betree.List.Cons (i, m) next_msgs0)
| betree.List.Nil => Result.ret ret0
/- [betree_main::betree::Node::{5}::apply_upserts]: forward function -/
divergent def betree.Node.apply_upserts
(msgs : betree.List (U64 × betree.Message)) (prev : Option U64) (key : U64)
(st : State) :
Result (State × U64)
:=
do
let b ← betree.List.head_has_key betree.Message msgs key
if b
then
do
let msg ← betree.List.pop_front (U64 × betree.Message) msgs
let (_, m) := msg
match m with
| betree.Message.Insert i => Result.fail Error.panic
| betree.Message.Delete => Result.fail Error.panic
| betree.Message.Upsert s =>
do
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
else
do
let (st0, v) ← core.option.Option.unwrap U64 prev st
let _ ←
betree.List.push_front (U64 × betree.Message) msgs (key,
betree.Message.Insert v)
Result.ret (st0, v)
/- [betree_main::betree::Node::{5}::apply_upserts]: backward function 0 -/
divergent def betree.Node.apply_upserts_back
(msgs : betree.List (U64 × betree.Message)) (prev : Option U64) (key : U64)
(st : State) :
Result (betree.List (U64 × betree.Message))
:=
do
let b ← betree.List.head_has_key betree.Message msgs key
if b
then
do
let msg ← betree.List.pop_front (U64 × betree.Message) msgs
let (_, m) := msg
match m with
| betree.Message.Insert i => Result.fail Error.panic
| betree.Message.Delete => Result.fail Error.panic
| betree.Message.Upsert s =>
do
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
else
do
let (_, v) ← core.option.Option.unwrap U64 prev st
betree.List.push_front (U64 × betree.Message) msgs (key,
betree.Message.Insert v)
/- [betree_main::betree::Node::{5}::lookup_in_bindings]: forward function -/
divergent def betree.Node.lookup_in_bindings
(key : U64) (bindings : betree.List (U64 × U64)) : Result (Option U64) :=
match bindings with
| betree.List.Cons hd tl =>
let (i, i0) := hd
if i = key
then Result.ret (Option.some i0)
else
if i > key
then Result.ret Option.none
else betree.Node.lookup_in_bindings key tl
| betree.List.Nil => Result.ret Option.none
/- [betree_main::betree::Internal::{4}::lookup_in_children]: forward function -/
mutual divergent def betree.Internal.lookup_in_children
(self : betree.Internal) (key : U64) (st : State) :
Result (State × (Option U64))
:=
let ⟨ _, i, n, n0 ⟩ := self
if key < i
then betree.Node.lookup n key st
else betree.Node.lookup n0 key st
/- [betree_main::betree::Internal::{4}::lookup_in_children]: backward function 0 -/
divergent def betree.Internal.lookup_in_children_back
(self : betree.Internal) (key : U64) (st : State) : Result betree.Internal :=
let ⟨ i, i0, n, n0 ⟩ := self
if key < i0
then
do
let n1 ← betree.Node.lookup_back n key st
Result.ret (betree.Internal.mk i i0 n1 n0)
else
do
let n1 ← betree.Node.lookup_back n0 key st
Result.ret (betree.Internal.mk i i0 n n1)
/- [betree_main::betree::Node::{5}::lookup]: forward function -/
divergent def betree.Node.lookup
(self : betree.Node) (key : U64) (st : State) :
Result (State × (Option U64))
:=
match self with
| betree.Node.Internal node =>
do
let ⟨ i, i0, n, n0 ⟩ := node
let (st0, msgs) ← betree.load_internal_node i st
let pending ← betree.Node.lookup_first_message_for_key key msgs
match pending with
| betree.List.Cons p l =>
let (k, msg) := p
if k != key
then
do
let (st1, opt) ←
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)
else
match msg with
| betree.Message.Insert v =>
do
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)
| 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)
| betree.Message.Upsert ufs =>
do
let (st1, v) ←
betree.Internal.lookup_in_children (betree.Internal.mk i i0 n
n0) key st0
let (st2, v0) ←
betree.Node.apply_upserts (betree.List.Cons (k,
betree.Message.Upsert ufs) l) v key st1
let node0 ←
betree.Internal.lookup_in_children_back (betree.Internal.mk i
i0 n n0) key st0
let ⟨ i1, _, _, _ ⟩ := node0
let pending0 ←
betree.Node.apply_upserts_back (betree.List.Cons (k,
betree.Message.Upsert ufs) l) v key st1
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)
| betree.List.Nil =>
do
let (st1, opt) ←
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)
| 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)
/- [betree_main::betree::Node::{5}::lookup]: backward function 0 -/
divergent def betree.Node.lookup_back
(self : betree.Node) (key : U64) (st : State) : Result betree.Node :=
match self with
| betree.Node.Internal node =>
do
let ⟨ i, i0, n, n0 ⟩ := node
let (st0, msgs) ← betree.load_internal_node i st
let pending ← betree.Node.lookup_first_message_for_key key msgs
match pending with
| betree.List.Cons p l =>
let (k, msg) := p
if k != key
then
do
let _ ←
betree.Node.lookup_first_message_for_key_back key msgs
(betree.List.Cons (k, msg) l)
let node0 ←
betree.Internal.lookup_in_children_back (betree.Internal.mk i i0
n n0) key st0
Result.ret (betree.Node.Internal node0)
else
match msg with
| betree.Message.Insert v =>
do
let _ ←
betree.Node.lookup_first_message_for_key_back key msgs
(betree.List.Cons (k, betree.Message.Insert v) l)
Result.ret (betree.Node.Internal (betree.Internal.mk i i0 n n0))
| 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 (betree.Node.Internal (betree.Internal.mk i i0 n n0))
| betree.Message.Upsert ufs =>
do
let (st1, v) ←
betree.Internal.lookup_in_children (betree.Internal.mk i i0 n
n0) key st0
let (st2, _) ←
betree.Node.apply_upserts (betree.List.Cons (k,
betree.Message.Upsert ufs) l) v key st1
let node0 ←
betree.Internal.lookup_in_children_back (betree.Internal.mk i
i0 n n0) key st0
let ⟨ i1, i2, n1, n2 ⟩ := node0
let pending0 ←
betree.Node.apply_upserts_back (betree.List.Cons (k,
betree.Message.Upsert ufs) l) v key st1
let msgs0 ←
betree.Node.lookup_first_message_for_key_back key msgs pending0
let _ ← betree.store_internal_node i1 msgs0 st2
Result.ret (betree.Node.Internal (betree.Internal.mk i1 i2 n1
n2))
| betree.List.Nil =>
do
let _ ←
betree.Node.lookup_first_message_for_key_back key msgs
betree.List.Nil
let node0 ←
betree.Internal.lookup_in_children_back (betree.Internal.mk i i0 n
n0) key st0
Result.ret (betree.Node.Internal node0)
| betree.Node.Leaf node =>
do
let (_, bindings) ← betree.load_leaf_node node.id st
let _ ← betree.Node.lookup_in_bindings key bindings
Result.ret (betree.Node.Leaf node)
end
/- [betree_main::betree::Node::{5}::filter_messages_for_key]: merged forward/backward function
(there is a single backward function, and the forward function returns ()) -/
divergent def betree.Node.filter_messages_for_key
(key : U64) (msgs : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × betree.Message))
:=
match msgs with
| betree.List.Cons p l =>
let (k, m) := p
if k = key
then
do
let msgs0 ←
betree.List.pop_front_back (U64 × betree.Message) (betree.List.Cons
(k, m) l)
betree.Node.filter_messages_for_key key msgs0
else Result.ret (betree.List.Cons (k, m) l)
| betree.List.Nil => Result.ret betree.List.Nil
/- [betree_main::betree::Node::{5}::lookup_first_message_after_key]: forward function -/
divergent def betree.Node.lookup_first_message_after_key
(key : U64) (msgs : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × betree.Message))
:=
match msgs with
| betree.List.Cons p next_msgs =>
let (k, m) := p
if k = key
then betree.Node.lookup_first_message_after_key key next_msgs
else Result.ret (betree.List.Cons (k, m) next_msgs)
| betree.List.Nil => Result.ret betree.List.Nil
/- [betree_main::betree::Node::{5}::lookup_first_message_after_key]: backward function 0 -/
divergent def betree.Node.lookup_first_message_after_key_back
(key : U64) (msgs : betree.List (U64 × betree.Message))
(ret0 : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × betree.Message))
:=
match msgs with
| betree.List.Cons p next_msgs =>
let (k, m) := p
if k = key
then
do
let next_msgs0 ←
betree.Node.lookup_first_message_after_key_back key next_msgs ret0
Result.ret (betree.List.Cons (k, m) next_msgs0)
else Result.ret ret0
| betree.List.Nil => Result.ret ret0
/- [betree_main::betree::Node::{5}::apply_to_internal]: merged forward/backward function
(there is a single backward function, and the forward function returns ()) -/
def betree.Node.apply_to_internal
(msgs : betree.List (U64 × betree.Message)) (key : U64)
(new_msg : betree.Message) :
Result (betree.List (U64 × betree.Message))
:=
do
let msgs0 ← betree.Node.lookup_first_message_for_key key msgs
let b ← betree.List.head_has_key betree.Message msgs0 key
if b
then
match new_msg with
| betree.Message.Insert i =>
do
let msgs1 ← betree.Node.filter_messages_for_key key msgs0
let msgs2 ←
betree.List.push_front (U64 × betree.Message) msgs1 (key,
betree.Message.Insert i)
betree.Node.lookup_first_message_for_key_back key msgs msgs2
| betree.Message.Delete =>
do
let msgs1 ← betree.Node.filter_messages_for_key key msgs0
let msgs2 ←
betree.List.push_front (U64 × betree.Message) msgs1 (key,
betree.Message.Delete)
betree.Node.lookup_first_message_for_key_back key msgs msgs2
| betree.Message.Upsert s =>
do
let p ← betree.List.hd (U64 × betree.Message) msgs0
let (_, m) := p
match m with
| betree.Message.Insert prev =>
do
let v ← betree.upsert_update (Option.some prev) s
let msgs1 ←
betree.List.pop_front_back (U64 × betree.Message) msgs0
let msgs2 ←
betree.List.push_front (U64 × betree.Message) msgs1 (key,
betree.Message.Insert v)
betree.Node.lookup_first_message_for_key_back key msgs msgs2
| betree.Message.Delete =>
do
let v ← betree.upsert_update Option.none s
let msgs1 ←
betree.List.pop_front_back (U64 × betree.Message) msgs0
let msgs2 ←
betree.List.push_front (U64 × betree.Message) msgs1 (key,
betree.Message.Insert v)
betree.Node.lookup_first_message_for_key_back key msgs msgs2
| betree.Message.Upsert ufs =>
do
let msgs1 ←
betree.Node.lookup_first_message_after_key key msgs0
let msgs2 ←
betree.List.push_front (U64 × betree.Message) msgs1 (key,
betree.Message.Upsert s)
let msgs3 ←
betree.Node.lookup_first_message_after_key_back key msgs0 msgs2
betree.Node.lookup_first_message_for_key_back key msgs msgs3
else
do
let msgs1 ←
betree.List.push_front (U64 × betree.Message) msgs0 (key, new_msg)
betree.Node.lookup_first_message_for_key_back key msgs msgs1
/- [betree_main::betree::Node::{5}::apply_messages_to_internal]: merged forward/backward function
(there is a single backward function, and the forward function returns ()) -/
divergent def betree.Node.apply_messages_to_internal
(msgs : betree.List (U64 × betree.Message))
(new_msgs : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × betree.Message))
:=
match new_msgs with
| betree.List.Cons new_msg new_msgs_tl =>
do
let (i, m) := new_msg
let msgs0 ← betree.Node.apply_to_internal msgs i m
betree.Node.apply_messages_to_internal msgs0 new_msgs_tl
| betree.List.Nil => Result.ret msgs
/- [betree_main::betree::Node::{5}::lookup_mut_in_bindings]: forward function -/
divergent def betree.Node.lookup_mut_in_bindings
(key : U64) (bindings : betree.List (U64 × U64)) :
Result (betree.List (U64 × U64))
:=
match bindings with
| betree.List.Cons hd tl =>
let (i, i0) := hd
if i >= key
then Result.ret (betree.List.Cons (i, i0) tl)
else betree.Node.lookup_mut_in_bindings key tl
| betree.List.Nil => Result.ret betree.List.Nil
/- [betree_main::betree::Node::{5}::lookup_mut_in_bindings]: backward function 0 -/
divergent def betree.Node.lookup_mut_in_bindings_back
(key : U64) (bindings : betree.List (U64 × U64))
(ret0 : betree.List (U64 × U64)) :
Result (betree.List (U64 × U64))
:=
match bindings with
| betree.List.Cons hd tl =>
let (i, i0) := hd
if i >= key
then Result.ret ret0
else
do
let tl0 ← betree.Node.lookup_mut_in_bindings_back key tl ret0
Result.ret (betree.List.Cons (i, i0) tl0)
| betree.List.Nil => Result.ret ret0
/- [betree_main::betree::Node::{5}::apply_to_leaf]: merged forward/backward function
(there is a single backward function, and the forward function returns ()) -/
def betree.Node.apply_to_leaf
(bindings : betree.List (U64 × U64)) (key : U64) (new_msg : betree.Message)
:
Result (betree.List (U64 × U64))
:=
do
let bindings0 ← betree.Node.lookup_mut_in_bindings key bindings
let b ← betree.List.head_has_key U64 bindings0 key
if b
then
do
let hd ← betree.List.pop_front (U64 × U64) bindings0
match new_msg with
| betree.Message.Insert v =>
do
let bindings1 ← betree.List.pop_front_back (U64 × U64) bindings0
let bindings2 ←
betree.List.push_front (U64 × U64) bindings1 (key, v)
betree.Node.lookup_mut_in_bindings_back key bindings bindings2
| betree.Message.Delete =>
do
let bindings1 ← betree.List.pop_front_back (U64 × U64) bindings0
betree.Node.lookup_mut_in_bindings_back key bindings bindings1
| betree.Message.Upsert s =>
do
let (_, i) := hd
let v ← betree.upsert_update (Option.some i) s
let bindings1 ← betree.List.pop_front_back (U64 × U64) bindings0
let bindings2 ←
betree.List.push_front (U64 × U64) bindings1 (key, v)
betree.Node.lookup_mut_in_bindings_back key bindings bindings2
else
match new_msg with
| betree.Message.Insert v =>
do
let bindings1 ←
betree.List.push_front (U64 × U64) bindings0 (key, v)
betree.Node.lookup_mut_in_bindings_back key bindings bindings1
| betree.Message.Delete =>
betree.Node.lookup_mut_in_bindings_back key bindings bindings0
| betree.Message.Upsert s =>
do
let v ← betree.upsert_update Option.none s
let bindings1 ←
betree.List.push_front (U64 × U64) bindings0 (key, v)
betree.Node.lookup_mut_in_bindings_back key bindings bindings1
/- [betree_main::betree::Node::{5}::apply_messages_to_leaf]: merged forward/backward function
(there is a single backward function, and the forward function returns ()) -/
divergent def betree.Node.apply_messages_to_leaf
(bindings : betree.List (U64 × U64))
(new_msgs : betree.List (U64 × betree.Message)) :
Result (betree.List (U64 × U64))
:=
match new_msgs with
| betree.List.Cons new_msg new_msgs_tl =>
do
let (i, m) := new_msg
let bindings0 ← betree.Node.apply_to_leaf bindings i m
betree.Node.apply_messages_to_leaf bindings0 new_msgs_tl
| betree.List.Nil => Result.ret bindings
/- [betree_main::betree::Internal::{4}::flush]: forward function -/
mutual divergent def betree.Internal.flush
(self : betree.Internal) (params : betree.Params)
(node_id_cnt : betree.NodeIdCounter)
(content : betree.List (U64 × betree.Message)) (st : State) :
Result (State × (betree.List (U64 × betree.Message)))
:=
do
let ⟨ _, i, n, n0 ⟩ := self
let p ← betree.List.partition_at_pivot betree.Message content i
let (msgs_left, msgs_right) := p
let len_left ← betree.List.len (U64 × betree.Message) msgs_left
if len_left >= params.min_flush_size
then
do
let (st0, _) ←
betree.Node.apply_messages n params node_id_cnt msgs_left st
let (_, node_id_cnt0) ←
betree.Node.apply_messages_back n params node_id_cnt msgs_left st
let len_right ← betree.List.len (U64 × betree.Message) msgs_right
if len_right >= params.min_flush_size
then
do
let (st1, _) ←
betree.Node.apply_messages n0 params node_id_cnt0 msgs_right st0
let _ ←
betree.Node.apply_messages_back n0 params node_id_cnt0 msgs_right
st0
Result.ret (st1, betree.List.Nil)
else Result.ret (st0, msgs_right)
else
do
let (st0, _) ←
betree.Node.apply_messages n0 params node_id_cnt msgs_right st
let _ ←
betree.Node.apply_messages_back n0 params node_id_cnt msgs_right st
Result.ret (st0, msgs_left)
/- [betree_main::betree::Internal::{4}::flush]: backward function 0 -/
divergent def betree.Internal.flush_back
(self : betree.Internal) (params : betree.Params)
(node_id_cnt : betree.NodeIdCounter)
(content : betree.List (U64 × betree.Message)) (st : State) :
Result (betree.Internal × betree.NodeIdCounter)
:=
do
let ⟨ i, i0, n, n0 ⟩ := self
let p ← betree.List.partition_at_pivot betree.Message content i0
let (msgs_left, msgs_right) := p
let len_left ← betree.List.len (U64 × betree.Message) msgs_left
if len_left >= params.min_flush_size
then
do
let (st0, _) ←
betree.Node.apply_messages n params node_id_cnt msgs_left st
let (n1, node_id_cnt0) ←
betree.Node.apply_messages_back n params node_id_cnt msgs_left st
let len_right ← betree.List.len (U64 × betree.Message) msgs_right
if len_right >= params.min_flush_size
then
do
let (n2, node_id_cnt1) ←
betree.Node.apply_messages_back n0 params node_id_cnt0 msgs_right
st0
Result.ret (betree.Internal.mk i i0 n1 n2, node_id_cnt1)
else Result.ret (betree.Internal.mk i i0 n1 n0, node_id_cnt0)
else
do
let (n1, node_id_cnt0) ←
betree.Node.apply_messages_back n0 params node_id_cnt msgs_right st
Result.ret (betree.Internal.mk i i0 n n1, node_id_cnt0)
/- [betree_main::betree::Node::{5}::apply_messages]: forward function -/
divergent def betree.Node.apply_messages
(self : betree.Node) (params : betree.Params)
(node_id_cnt : betree.NodeIdCounter)
(msgs : betree.List (U64 × betree.Message)) (st : State) :
Result (State × Unit)
:=
match self with
| betree.Node.Internal node =>
do
let ⟨ i, i0, n, n0 ⟩ := node
let (st0, content) ← betree.load_internal_node i st
let content0 ← betree.Node.apply_messages_to_internal content msgs
let num_msgs ← betree.List.len (U64 × betree.Message) content0
if num_msgs >= params.min_flush_size
then
do
let (st1, content1) ←
betree.Internal.flush (betree.Internal.mk i i0 n n0) params
node_id_cnt content0 st0
let (node0, _) ←
betree.Internal.flush_back (betree.Internal.mk i i0 n n0) params
node_id_cnt content0 st0
let ⟨ i1, _, _, _ ⟩ := node0
let (st2, _) ← betree.store_internal_node i1 content1 st1
Result.ret (st2, ())
else
do
let (st1, _) ← betree.store_internal_node i content0 st0
Result.ret (st1, ())
| betree.Node.Leaf node =>
do
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
if len >= i
then
do
let (st1, _) ←
betree.Leaf.split node content0 params node_id_cnt st0
let (st2, _) ← betree.store_leaf_node node.id betree.List.Nil st1
Result.ret (st2, ())
else
do
let (st1, _) ← betree.store_leaf_node node.id content0 st0
Result.ret (st1, ())
/- [betree_main::betree::Node::{5}::apply_messages]: backward function 0 -/
divergent def betree.Node.apply_messages_back
(self : betree.Node) (params : betree.Params)
(node_id_cnt : betree.NodeIdCounter)
(msgs : betree.List (U64 × betree.Message)) (st : State) :
Result (betree.Node × betree.NodeIdCounter)
:=
match self with
| betree.Node.Internal node =>
do
let ⟨ i, i0, n, n0 ⟩ := node
let (st0, content) ← betree.load_internal_node i st
let content0 ← betree.Node.apply_messages_to_internal content msgs
let num_msgs ← betree.List.len (U64 × betree.Message) content0
if num_msgs >= params.min_flush_size
then
do
let (st1, content1) ←
betree.Internal.flush (betree.Internal.mk i i0 n n0) params
node_id_cnt content0 st0
let (node0, node_id_cnt0) ←
betree.Internal.flush_back (betree.Internal.mk i i0 n n0) params
node_id_cnt content0 st0
let ⟨ i1, i2, n1, n2 ⟩ := node0
let _ ← betree.store_internal_node i1 content1 st1
Result.ret (betree.Node.Internal (betree.Internal.mk i1 i2 n1 n2),
node_id_cnt0)
else
do
let _ ← betree.store_internal_node i content0 st0
Result.ret (betree.Node.Internal (betree.Internal.mk i i0 n n0),
node_id_cnt)
| betree.Node.Leaf node =>
do
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
if len >= i
then
do
let (st1, new_node) ←
betree.Leaf.split node content0 params node_id_cnt st0
let _ ← betree.store_leaf_node node.id betree.List.Nil st1
let node_id_cnt0 ←
betree.Leaf.split_back node content0 params node_id_cnt st0
Result.ret (betree.Node.Internal new_node, node_id_cnt0)
else
do
let _ ← betree.store_leaf_node node.id content0 st0
Result.ret (betree.Node.Leaf { node with size := len }, node_id_cnt)
end
/- [betree_main::betree::Node::{5}::apply]: forward function -/
def betree.Node.apply
(self : betree.Node) (params : betree.Params)
(node_id_cnt : betree.NodeIdCounter) (key : U64) (new_msg : betree.Message)
(st : State) :
Result (State × Unit)
:=
do
let l := betree.List.Nil
let (st0, _) ←
betree.Node.apply_messages self params node_id_cnt (betree.List.Cons
(key, new_msg) l) st
let _ ←
betree.Node.apply_messages_back self params node_id_cnt (betree.List.Cons
(key, new_msg) l) st
Result.ret (st0, ())
/- [betree_main::betree::Node::{5}::apply]: backward function 0 -/
def betree.Node.apply_back
(self : betree.Node) (params : betree.Params)
(node_id_cnt : betree.NodeIdCounter) (key : U64) (new_msg : betree.Message)
(st : State) :
Result (betree.Node × betree.NodeIdCounter)
:=
let l := betree.List.Nil
betree.Node.apply_messages_back self params node_id_cnt (betree.List.Cons
(key, new_msg) l) st
/- [betree_main::betree::BeTree::{6}::new]: forward function -/
def betree.BeTree.new
(min_flush_size : U64) (split_size : U64) (st : State) :
Result (State × betree.BeTree)
:=
do
let node_id_cnt ← betree.NodeIdCounter.new
let id ← betree.NodeIdCounter.fresh_id node_id_cnt
let (st0, _) ← betree.store_leaf_node id betree.List.Nil st
let node_id_cnt0 ← betree.NodeIdCounter.fresh_id_back node_id_cnt
Result.ret (st0,
{
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) })
})
/- [betree_main::betree::BeTree::{6}::apply]: forward function -/
def betree.BeTree.apply
(self : betree.BeTree) (key : U64) (msg : betree.Message) (st : State) :
Result (State × Unit)
:=
do
let (st0, _) ←
betree.Node.apply self.root self.params self.node_id_cnt key msg st
let _ ←
betree.Node.apply_back self.root self.params self.node_id_cnt key msg st
Result.ret (st0, ())
/- [betree_main::betree::BeTree::{6}::apply]: backward function 0 -/
def betree.BeTree.apply_back
(self : betree.BeTree) (key : U64) (msg : betree.Message) (st : State) :
Result betree.BeTree
:=
do
let (n, nic) ←
betree.Node.apply_back self.root self.params self.node_id_cnt key msg st
Result.ret { self with node_id_cnt := nic, root := n }
/- [betree_main::betree::BeTree::{6}::insert]: forward function -/
def betree.BeTree.insert
(self : betree.BeTree) (key : U64) (value : U64) (st : State) :
Result (State × Unit)
:=
do
let (st0, _) ←
betree.BeTree.apply self key (betree.Message.Insert value) st
let _ ←
betree.BeTree.apply_back self key (betree.Message.Insert value) st
Result.ret (st0, ())
/- [betree_main::betree::BeTree::{6}::insert]: backward function 0 -/
def betree.BeTree.insert_back
(self : betree.BeTree) (key : U64) (value : U64) (st : State) :
Result betree.BeTree
:=
betree.BeTree.apply_back self key (betree.Message.Insert value) st
/- [betree_main::betree::BeTree::{6}::delete]: forward function -/
def betree.BeTree.delete
(self : betree.BeTree) (key : U64) (st : State) : Result (State × Unit) :=
do
let (st0, _) ← betree.BeTree.apply self key betree.Message.Delete st
let _ ← betree.BeTree.apply_back self key betree.Message.Delete st
Result.ret (st0, ())
/- [betree_main::betree::BeTree::{6}::delete]: backward function 0 -/
def betree.BeTree.delete_back
(self : betree.BeTree) (key : U64) (st : State) : Result betree.BeTree :=
betree.BeTree.apply_back self key betree.Message.Delete st
/- [betree_main::betree::BeTree::{6}::upsert]: forward function -/
def betree.BeTree.upsert
(self : betree.BeTree) (key : U64) (upd : betree.UpsertFunState) (st : State)
:
Result (State × Unit)
:=
do
let (st0, _) ←
betree.BeTree.apply self key (betree.Message.Upsert upd) st
let _ ← betree.BeTree.apply_back self key (betree.Message.Upsert upd) st
Result.ret (st0, ())
/- [betree_main::betree::BeTree::{6}::upsert]: backward function 0 -/
def betree.BeTree.upsert_back
(self : betree.BeTree) (key : U64) (upd : betree.UpsertFunState) (st : State)
:
Result betree.BeTree
:=
betree.BeTree.apply_back self key (betree.Message.Upsert upd) st
/- [betree_main::betree::BeTree::{6}::lookup]: forward function -/
def betree.BeTree.lookup
(self : betree.BeTree) (key : U64) (st : State) :
Result (State × (Option U64))
:=
betree.Node.lookup self.root key st
/- [betree_main::betree::BeTree::{6}::lookup]: backward function 0 -/
def betree.BeTree.lookup_back
(self : betree.BeTree) (key : U64) (st : State) : Result betree.BeTree :=
do
let n ← betree.Node.lookup_back self.root key st
Result.ret { self with root := n }
/- [betree_main::main]: forward function -/
def main : Result Unit :=
Result.ret ()
/- Unit test for [betree_main::main] -/
#assert (main == .ret ())
end betree_main
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