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|
signature betreeMain_FunsTheory =
sig
type thm = Thm.thm
(* Definitions *)
val betree_be_tree_apply_back_def : thm
val betree_be_tree_apply_fwd_def : thm
val betree_be_tree_delete_back_def : thm
val betree_be_tree_delete_fwd_def : thm
val betree_be_tree_insert_back_def : thm
val betree_be_tree_insert_fwd_def : thm
val betree_be_tree_lookup_back_def : thm
val betree_be_tree_lookup_fwd_def : thm
val betree_be_tree_new_fwd_def : thm
val betree_be_tree_upsert_back_def : thm
val betree_be_tree_upsert_fwd_def : thm
val betree_fresh_node_id_back_def : thm
val betree_fresh_node_id_fwd_def : thm
val betree_internal_flush_back_def : thm
val betree_internal_flush_fwd_def : thm
val betree_internal_lookup_in_children_back_def : thm
val betree_internal_lookup_in_children_fwd_def : thm
val betree_leaf_split_back_def : thm
val betree_leaf_split_fwd_def : thm
val betree_list_hd_fwd_def : thm
val betree_list_head_has_key_fwd_def : thm
val betree_list_len_fwd_def : thm
val betree_list_partition_at_pivot_fwd_def : thm
val betree_list_pop_front_back_def : thm
val betree_list_pop_front_fwd_def : thm
val betree_list_push_front_fwd_back_def : thm
val betree_list_split_at_fwd_def : thm
val betree_load_internal_node_fwd_def : thm
val betree_load_leaf_node_fwd_def : thm
val betree_node_apply_back_def : thm
val betree_node_apply_fwd_def : thm
val betree_node_apply_messages_back_def : thm
val betree_node_apply_messages_fwd_def : thm
val betree_node_apply_messages_to_internal_fwd_back_def : thm
val betree_node_apply_messages_to_leaf_fwd_back_def : thm
val betree_node_apply_to_internal_fwd_back_def : thm
val betree_node_apply_to_leaf_fwd_back_def : thm
val betree_node_apply_upserts_back_def : thm
val betree_node_apply_upserts_fwd_def : thm
val betree_node_filter_messages_for_key_fwd_back_def : thm
val betree_node_id_counter_fresh_id_back_def : thm
val betree_node_id_counter_fresh_id_fwd_def : thm
val betree_node_id_counter_new_fwd_def : thm
val betree_node_lookup_back_def : thm
val betree_node_lookup_first_message_after_key_back_def : thm
val betree_node_lookup_first_message_after_key_fwd_def : thm
val betree_node_lookup_first_message_for_key_back_def : thm
val betree_node_lookup_first_message_for_key_fwd_def : thm
val betree_node_lookup_fwd_def : thm
val betree_node_lookup_in_bindings_fwd_def : thm
val betree_node_lookup_mut_in_bindings_back_def : thm
val betree_node_lookup_mut_in_bindings_fwd_def : thm
val betree_store_internal_node_fwd_def : thm
val betree_store_leaf_node_fwd_def : thm
val betree_upsert_update_fwd_def : thm
val core_num_u64_max_body_def : thm
val core_num_u64_max_c_def : thm
val main_fwd_def : thm
val betreeMain_Funs_grammars : type_grammar.grammar * term_grammar.grammar
(*
[betreeMain_Opaque] Parent theory of "betreeMain_Funs"
[betree_be_tree_apply_back_def] Definition
⊢ ∀self key msg st.
betree_be_tree_apply_back self key msg st =
do
(n,nic) <-
betree_node_apply_back self.betree_be_tree_root
self.betree_be_tree_params self.betree_be_tree_node_id_cnt
key msg st;
Return
(self with
<|betree_be_tree_node_id_cnt := nic;
betree_be_tree_root := n|>)
od
[betree_be_tree_apply_fwd_def] Definition
⊢ ∀self key msg st.
betree_be_tree_apply_fwd self key msg st =
do
(st0,_) <-
betree_node_apply_fwd self.betree_be_tree_root
self.betree_be_tree_params self.betree_be_tree_node_id_cnt
key msg st;
monad_ignore_bind
(betree_node_apply_back self.betree_be_tree_root
self.betree_be_tree_params self.betree_be_tree_node_id_cnt
key msg st) (Return (st0,()))
od
[betree_be_tree_delete_back_def] Definition
⊢ ∀self key st.
betree_be_tree_delete_back self key st =
betree_be_tree_apply_back self key BetreeMessageDelete st
[betree_be_tree_delete_fwd_def] Definition
⊢ ∀self key st.
betree_be_tree_delete_fwd self key st =
do
(st0,_) <-
betree_be_tree_apply_fwd self key BetreeMessageDelete st;
monad_ignore_bind
(betree_be_tree_apply_back self key BetreeMessageDelete st)
(Return (st0,()))
od
[betree_be_tree_insert_back_def] Definition
⊢ ∀self key value st.
betree_be_tree_insert_back self key value st =
betree_be_tree_apply_back self key (BetreeMessageInsert value) st
[betree_be_tree_insert_fwd_def] Definition
⊢ ∀self key value st.
betree_be_tree_insert_fwd self key value st =
do
(st0,_) <-
betree_be_tree_apply_fwd self key (BetreeMessageInsert value)
st;
monad_ignore_bind
(betree_be_tree_apply_back self key
(BetreeMessageInsert value) st) (Return (st0,()))
od
[betree_be_tree_lookup_back_def] Definition
⊢ ∀self key st.
betree_be_tree_lookup_back self key st =
do
n <- betree_node_lookup_back self.betree_be_tree_root key st;
Return (self with betree_be_tree_root := n)
od
[betree_be_tree_lookup_fwd_def] Definition
⊢ ∀self key st.
betree_be_tree_lookup_fwd self key st =
betree_node_lookup_fwd self.betree_be_tree_root key st
[betree_be_tree_new_fwd_def] Definition
⊢ ∀min_flush_size split_size st.
betree_be_tree_new_fwd min_flush_size split_size st =
do
node_id_cnt <- betree_node_id_counter_new_fwd;
id <- betree_node_id_counter_fresh_id_fwd node_id_cnt;
(st0,_) <- betree_store_leaf_node_fwd id BetreeListNil st;
node_id_cnt0 <-
betree_node_id_counter_fresh_id_back node_id_cnt;
Return
(st0,
<|betree_be_tree_params :=
<|betree_params_min_flush_size := min_flush_size;
betree_params_split_size := split_size|>;
betree_be_tree_node_id_cnt := node_id_cnt0;
betree_be_tree_root :=
BetreeNodeLeaf
<|betree_leaf_id := id;
betree_leaf_size := int_to_u64 0|> |>)
od
[betree_be_tree_upsert_back_def] Definition
⊢ ∀self key upd st.
betree_be_tree_upsert_back self key upd st =
betree_be_tree_apply_back self key (BetreeMessageUpsert upd) st
[betree_be_tree_upsert_fwd_def] Definition
⊢ ∀self key upd st.
betree_be_tree_upsert_fwd self key upd st =
do
(st0,_) <-
betree_be_tree_apply_fwd self key (BetreeMessageUpsert upd)
st;
monad_ignore_bind
(betree_be_tree_apply_back self key (BetreeMessageUpsert upd)
st) (Return (st0,()))
od
[betree_fresh_node_id_back_def] Definition
⊢ ∀counter.
betree_fresh_node_id_back counter =
u64_add counter (int_to_u64 1)
[betree_fresh_node_id_fwd_def] Definition
⊢ ∀counter.
betree_fresh_node_id_fwd counter =
monad_ignore_bind (u64_add counter (int_to_u64 1))
(Return counter)
[betree_internal_flush_back_def] Definition
⊢ ∀self params node_id_cnt content st.
betree_internal_flush_back self params node_id_cnt content st =
do
p <-
betree_list_partition_at_pivot_fwd content
self.betree_internal_pivot;
(msgs_left,msgs_right) <<- p;
len_left <- betree_list_len_fwd msgs_left;
if u64_ge len_left params.betree_params_min_flush_size then
do
(st0,_) <-
betree_node_apply_messages_fwd self.betree_internal_left
params node_id_cnt msgs_left st;
(n,node_id_cnt0) <-
betree_node_apply_messages_back self.betree_internal_left
params node_id_cnt msgs_left st;
len_right <- betree_list_len_fwd msgs_right;
if
u64_ge len_right params.betree_params_min_flush_size
then
do
(n0,node_id_cnt1) <-
betree_node_apply_messages_back
self.betree_internal_right params node_id_cnt0
msgs_right st0;
Return
(self with
<|betree_internal_left := n;
betree_internal_right := n0|>,node_id_cnt1)
od
else
Return (self with betree_internal_left := n,node_id_cnt0)
od
else
do
(n,node_id_cnt0) <-
betree_node_apply_messages_back
self.betree_internal_right params node_id_cnt
msgs_right st;
Return (self with betree_internal_right := n,node_id_cnt0)
od
od
[betree_internal_flush_fwd_def] Definition
⊢ ∀self params node_id_cnt content st.
betree_internal_flush_fwd self params node_id_cnt content st =
do
p <-
betree_list_partition_at_pivot_fwd content
self.betree_internal_pivot;
(msgs_left,msgs_right) <<- p;
len_left <- betree_list_len_fwd msgs_left;
if u64_ge len_left params.betree_params_min_flush_size then
do
(st0,_) <-
betree_node_apply_messages_fwd self.betree_internal_left
params node_id_cnt msgs_left st;
(_,node_id_cnt0) <-
betree_node_apply_messages_back self.betree_internal_left
params node_id_cnt msgs_left st;
len_right <- betree_list_len_fwd msgs_right;
if
u64_ge len_right params.betree_params_min_flush_size
then
do
(st1,_) <-
betree_node_apply_messages_fwd
self.betree_internal_right params node_id_cnt0
msgs_right st0;
monad_ignore_bind
(betree_node_apply_messages_back
self.betree_internal_right params node_id_cnt0
msgs_right st0) (Return (st1,BetreeListNil))
od
else Return (st0,msgs_right)
od
else
do
(st0,_) <-
betree_node_apply_messages_fwd self.betree_internal_right
params node_id_cnt msgs_right st;
monad_ignore_bind
(betree_node_apply_messages_back
self.betree_internal_right params node_id_cnt
msgs_right st) (Return (st0,msgs_left))
od
od
[betree_internal_lookup_in_children_back_def] Definition
⊢ ∀self key st.
betree_internal_lookup_in_children_back self key st =
if u64_lt key self.betree_internal_pivot then
do
n <- betree_node_lookup_back self.betree_internal_left key st;
Return (self with betree_internal_left := n)
od
else
do
n <-
betree_node_lookup_back self.betree_internal_right key st;
Return (self with betree_internal_right := n)
od
[betree_internal_lookup_in_children_fwd_def] Definition
⊢ ∀self key st.
betree_internal_lookup_in_children_fwd self key st =
if u64_lt key self.betree_internal_pivot then
betree_node_lookup_fwd self.betree_internal_left key st
else betree_node_lookup_fwd self.betree_internal_right key st
[betree_leaf_split_back_def] Definition
⊢ ∀self content params node_id_cnt st.
betree_leaf_split_back self content params node_id_cnt st =
do
p <-
betree_list_split_at_fwd content
params.betree_params_split_size;
(content0,content1) <<- p;
monad_ignore_bind (betree_list_hd_fwd content1)
do
id0 <- betree_node_id_counter_fresh_id_fwd node_id_cnt;
node_id_cnt0 <-
betree_node_id_counter_fresh_id_back node_id_cnt;
id1 <- betree_node_id_counter_fresh_id_fwd node_id_cnt0;
(st0,_) <- betree_store_leaf_node_fwd id0 content0 st;
monad_ignore_bind
(betree_store_leaf_node_fwd id1 content1 st0)
(betree_node_id_counter_fresh_id_back node_id_cnt0)
od
od
[betree_leaf_split_fwd_def] Definition
⊢ ∀self content params node_id_cnt st.
betree_leaf_split_fwd self content params node_id_cnt st =
do
p <-
betree_list_split_at_fwd content
params.betree_params_split_size;
(content0,content1) <<- p;
p0 <- betree_list_hd_fwd content1;
(pivot,_) <<- p0;
id0 <- betree_node_id_counter_fresh_id_fwd node_id_cnt;
node_id_cnt0 <-
betree_node_id_counter_fresh_id_back node_id_cnt;
id1 <- betree_node_id_counter_fresh_id_fwd node_id_cnt0;
(st0,_) <- betree_store_leaf_node_fwd id0 content0 st;
(st1,_) <- betree_store_leaf_node_fwd id1 content1 st0;
n <<-
BetreeNodeLeaf
<|betree_leaf_id := id0;
betree_leaf_size := params.betree_params_split_size|>;
n0 <<-
BetreeNodeLeaf
<|betree_leaf_id := id1;
betree_leaf_size := params.betree_params_split_size|>;
Return
(st1,
<|betree_internal_id := self.betree_leaf_id;
betree_internal_pivot := pivot; betree_internal_left := n;
betree_internal_right := n0|>)
od
[betree_list_hd_fwd_def] Definition
⊢ ∀self.
betree_list_hd_fwd self =
case self of
BetreeListCons hd l => Return hd
| BetreeListNil => Fail Failure
[betree_list_head_has_key_fwd_def] Definition
⊢ ∀self key.
betree_list_head_has_key_fwd self key =
case self of
BetreeListCons hd l => (let (i,_) = hd in Return (i = key))
| BetreeListNil => Return F
[betree_list_len_fwd_def] Definition
⊢ ∀self.
betree_list_len_fwd self =
case self of
BetreeListCons t tl =>
do i <- betree_list_len_fwd tl; u64_add (int_to_u64 1) i od
| BetreeListNil => Return (int_to_u64 0)
[betree_list_partition_at_pivot_fwd_def] Definition
⊢ ∀self pivot.
betree_list_partition_at_pivot_fwd self pivot =
case self of
BetreeListCons hd tl =>
(let
(i,t) = hd
in
if u64_ge i pivot then
Return (BetreeListNil,BetreeListCons (i,t) tl)
else
do
p <- betree_list_partition_at_pivot_fwd tl pivot;
(ls0,ls1) <<- p;
l <<- ls0;
Return (BetreeListCons (i,t) l,ls1)
od)
| BetreeListNil => Return (BetreeListNil,BetreeListNil)
[betree_list_pop_front_back_def] Definition
⊢ ∀self.
betree_list_pop_front_back self =
(let
ls = mem_replace_fwd self BetreeListNil
in
case ls of
BetreeListCons x tl => Return tl
| BetreeListNil => Fail Failure)
[betree_list_pop_front_fwd_def] Definition
⊢ ∀self.
betree_list_pop_front_fwd self =
(let
ls = mem_replace_fwd self BetreeListNil
in
case ls of
BetreeListCons x tl => Return x
| BetreeListNil => Fail Failure)
[betree_list_push_front_fwd_back_def] Definition
⊢ ∀self x.
betree_list_push_front_fwd_back self x =
(let
tl = mem_replace_fwd self BetreeListNil;
l = tl
in
Return (BetreeListCons x l))
[betree_list_split_at_fwd_def] Definition
⊢ ∀self n.
betree_list_split_at_fwd self n =
if n = int_to_u64 0 then Return (BetreeListNil,self)
else
case self of
BetreeListCons hd tl =>
do
i <- u64_sub n (int_to_u64 1);
p <- betree_list_split_at_fwd tl i;
(ls0,ls1) <<- p;
l <<- ls0;
Return (BetreeListCons hd l,ls1)
od
| BetreeListNil => Fail Failure
[betree_load_internal_node_fwd_def] Definition
⊢ ∀id st.
betree_load_internal_node_fwd id st =
betree_utils_load_internal_node_fwd id st
[betree_load_leaf_node_fwd_def] Definition
⊢ ∀id st.
betree_load_leaf_node_fwd id st =
betree_utils_load_leaf_node_fwd id st
[betree_node_apply_back_def] Definition
⊢ ∀self params node_id_cnt key new_msg st.
betree_node_apply_back self params node_id_cnt key new_msg st =
(let
l = BetreeListNil
in
betree_node_apply_messages_back self params node_id_cnt
(BetreeListCons (key,new_msg) l) st)
[betree_node_apply_fwd_def] Definition
⊢ ∀self params node_id_cnt key new_msg st.
betree_node_apply_fwd self params node_id_cnt key new_msg st =
(let
l = BetreeListNil
in
do
(st0,_) <-
betree_node_apply_messages_fwd self params node_id_cnt
(BetreeListCons (key,new_msg) l) st;
monad_ignore_bind
(betree_node_apply_messages_back self params node_id_cnt
(BetreeListCons (key,new_msg) l) st) (Return (st0,()))
od)
[betree_node_apply_messages_back_def] Definition
⊢ ∀self params node_id_cnt msgs st.
betree_node_apply_messages_back self params node_id_cnt msgs st =
case self of
BetreeNodeInternal node =>
do
(st0,content) <-
betree_load_internal_node_fwd node.betree_internal_id st;
content0 <-
betree_node_apply_messages_to_internal_fwd_back content
msgs;
num_msgs <- betree_list_len_fwd content0;
if u64_ge num_msgs params.betree_params_min_flush_size then
do
(st1,content1) <-
betree_internal_flush_fwd node params node_id_cnt
content0 st0;
(node0,node_id_cnt0) <-
betree_internal_flush_back node params node_id_cnt
content0 st0;
monad_ignore_bind
(betree_store_internal_node_fwd
node0.betree_internal_id content1 st1)
(Return (BetreeNodeInternal node0,node_id_cnt0))
od
else
monad_ignore_bind
(betree_store_internal_node_fwd node.betree_internal_id
content0 st0)
(Return (BetreeNodeInternal node,node_id_cnt))
od
| BetreeNodeLeaf node' =>
do
(st0,content) <-
betree_load_leaf_node_fwd node'.betree_leaf_id st;
content0 <-
betree_node_apply_messages_to_leaf_fwd_back content msgs;
len <- betree_list_len_fwd content0;
i <- u64_mul (int_to_u64 2) params.betree_params_split_size;
if u64_ge len i then
do
(st1,new_node) <-
betree_leaf_split_fwd node' content0 params node_id_cnt
st0;
monad_ignore_bind
(betree_store_leaf_node_fwd node'.betree_leaf_id
BetreeListNil st1)
do
node_id_cnt0 <-
betree_leaf_split_back node' content0 params
node_id_cnt st0;
Return (BetreeNodeInternal new_node,node_id_cnt0)
od
od
else
monad_ignore_bind
(betree_store_leaf_node_fwd node'.betree_leaf_id content0
st0)
(Return
(BetreeNodeLeaf (node' with betree_leaf_size := len),
node_id_cnt))
od
[betree_node_apply_messages_fwd_def] Definition
⊢ ∀self params node_id_cnt msgs st.
betree_node_apply_messages_fwd self params node_id_cnt msgs st =
case self of
BetreeNodeInternal node =>
do
(st0,content) <-
betree_load_internal_node_fwd node.betree_internal_id st;
content0 <-
betree_node_apply_messages_to_internal_fwd_back content
msgs;
num_msgs <- betree_list_len_fwd content0;
if u64_ge num_msgs params.betree_params_min_flush_size then
do
(st1,content1) <-
betree_internal_flush_fwd node params node_id_cnt
content0 st0;
(node0,_) <-
betree_internal_flush_back node params node_id_cnt
content0 st0;
(st2,_) <-
betree_store_internal_node_fwd
node0.betree_internal_id content1 st1;
Return (st2,())
od
else
do
(st1,_) <-
betree_store_internal_node_fwd
node.betree_internal_id content0 st0;
Return (st1,())
od
od
| BetreeNodeLeaf node' =>
do
(st0,content) <-
betree_load_leaf_node_fwd node'.betree_leaf_id st;
content0 <-
betree_node_apply_messages_to_leaf_fwd_back content msgs;
len <- betree_list_len_fwd content0;
i <- u64_mul (int_to_u64 2) params.betree_params_split_size;
if u64_ge len i then
do
(st1,_) <-
betree_leaf_split_fwd node' content0 params node_id_cnt
st0;
(st2,_) <-
betree_store_leaf_node_fwd node'.betree_leaf_id
BetreeListNil st1;
Return (st2,())
od
else
do
(st1,_) <-
betree_store_leaf_node_fwd node'.betree_leaf_id
content0 st0;
Return (st1,())
od
od
[betree_node_apply_messages_to_internal_fwd_back_def] Definition
⊢ ∀msgs new_msgs.
betree_node_apply_messages_to_internal_fwd_back msgs new_msgs =
case new_msgs of
BetreeListCons new_msg new_msgs_tl =>
(let
(i,m) = new_msg
in
do
msgs0 <- betree_node_apply_to_internal_fwd_back msgs i m;
betree_node_apply_messages_to_internal_fwd_back msgs0
new_msgs_tl
od)
| BetreeListNil => Return msgs
[betree_node_apply_messages_to_leaf_fwd_back_def] Definition
⊢ ∀bindings new_msgs.
betree_node_apply_messages_to_leaf_fwd_back bindings new_msgs =
case new_msgs of
BetreeListCons new_msg new_msgs_tl =>
(let
(i,m) = new_msg
in
do
bindings0 <-
betree_node_apply_to_leaf_fwd_back bindings i m;
betree_node_apply_messages_to_leaf_fwd_back bindings0
new_msgs_tl
od)
| BetreeListNil => Return bindings
[betree_node_apply_to_internal_fwd_back_def] Definition
⊢ ∀msgs key new_msg.
betree_node_apply_to_internal_fwd_back msgs key new_msg =
do
msgs0 <- betree_node_lookup_first_message_for_key_fwd key msgs;
b <- betree_list_head_has_key_fwd msgs0 key;
if b then
case new_msg of
BetreeMessageInsert i =>
do
msgs1 <-
betree_node_filter_messages_for_key_fwd_back key
msgs0;
msgs2 <-
betree_list_push_front_fwd_back msgs1
(key,BetreeMessageInsert i);
betree_node_lookup_first_message_for_key_back key msgs
msgs2
od
| BetreeMessageDelete =>
do
msgs1 <-
betree_node_filter_messages_for_key_fwd_back key msgs0;
msgs2 <-
betree_list_push_front_fwd_back msgs1
(key,BetreeMessageDelete);
betree_node_lookup_first_message_for_key_back key msgs
msgs2
od
| BetreeMessageUpsert s =>
do
p <- betree_list_hd_fwd msgs0;
(_,m) <<- p;
case m of
BetreeMessageInsert prev =>
do
v <- betree_upsert_update_fwd (SOME prev) s;
msgs1 <- betree_list_pop_front_back msgs0;
msgs2 <-
betree_list_push_front_fwd_back msgs1
(key,BetreeMessageInsert v);
betree_node_lookup_first_message_for_key_back key
msgs msgs2
od
| BetreeMessageDelete =>
do
v <- betree_upsert_update_fwd NONE s;
msgs1 <- betree_list_pop_front_back msgs0;
msgs2 <-
betree_list_push_front_fwd_back msgs1
(key,BetreeMessageInsert v);
betree_node_lookup_first_message_for_key_back key
msgs msgs2
od
| BetreeMessageUpsert ufs =>
do
msgs1 <-
betree_node_lookup_first_message_after_key_fwd key
msgs0;
msgs2 <-
betree_list_push_front_fwd_back msgs1
(key,BetreeMessageUpsert s);
msgs3 <-
betree_node_lookup_first_message_after_key_back key
msgs0 msgs2;
betree_node_lookup_first_message_for_key_back key
msgs msgs3
od
od
else
do
msgs1 <-
betree_list_push_front_fwd_back msgs0 (key,new_msg);
betree_node_lookup_first_message_for_key_back key msgs
msgs1
od
od
[betree_node_apply_to_leaf_fwd_back_def] Definition
⊢ ∀bindings key new_msg.
betree_node_apply_to_leaf_fwd_back bindings key new_msg =
do
bindings0 <-
betree_node_lookup_mut_in_bindings_fwd key bindings;
b <- betree_list_head_has_key_fwd bindings0 key;
if b then
do
hd <- betree_list_pop_front_fwd bindings0;
case new_msg of
BetreeMessageInsert v =>
do
bindings1 <- betree_list_pop_front_back bindings0;
bindings2 <-
betree_list_push_front_fwd_back bindings1 (key,v);
betree_node_lookup_mut_in_bindings_back key bindings
bindings2
od
| BetreeMessageDelete =>
do
bindings1 <- betree_list_pop_front_back bindings0;
betree_node_lookup_mut_in_bindings_back key bindings
bindings1
od
| BetreeMessageUpsert s =>
(let
(_,i) = hd
in
do
v <- betree_upsert_update_fwd (SOME i) s;
bindings1 <- betree_list_pop_front_back bindings0;
bindings2 <-
betree_list_push_front_fwd_back bindings1 (key,v);
betree_node_lookup_mut_in_bindings_back key bindings
bindings2
od)
od
else
case new_msg of
BetreeMessageInsert v =>
do
bindings1 <-
betree_list_push_front_fwd_back bindings0 (key,v);
betree_node_lookup_mut_in_bindings_back key bindings
bindings1
od
| BetreeMessageDelete =>
betree_node_lookup_mut_in_bindings_back key bindings
bindings0
| BetreeMessageUpsert s =>
do
v <- betree_upsert_update_fwd NONE s;
bindings1 <-
betree_list_push_front_fwd_back bindings0 (key,v);
betree_node_lookup_mut_in_bindings_back key bindings
bindings1
od
od
[betree_node_apply_upserts_back_def] Definition
⊢ ∀msgs prev key st.
betree_node_apply_upserts_back msgs prev key st =
do
b <- betree_list_head_has_key_fwd msgs key;
if b then
do
msg <- betree_list_pop_front_fwd msgs;
(_,m) <<- msg;
case m of
BetreeMessageInsert i => Fail Failure
| BetreeMessageDelete => Fail Failure
| BetreeMessageUpsert s =>
do
v <- betree_upsert_update_fwd prev s;
msgs0 <- betree_list_pop_front_back msgs;
betree_node_apply_upserts_back msgs0 (SOME v) key st
od
od
else
do
(_,v) <- core_option_option_unwrap_fwd prev st;
betree_list_push_front_fwd_back msgs
(key,BetreeMessageInsert v)
od
od
[betree_node_apply_upserts_fwd_def] Definition
⊢ ∀msgs prev key st.
betree_node_apply_upserts_fwd msgs prev key st =
do
b <- betree_list_head_has_key_fwd msgs key;
if b then
do
msg <- betree_list_pop_front_fwd msgs;
(_,m) <<- msg;
case m of
BetreeMessageInsert i => Fail Failure
| BetreeMessageDelete => Fail Failure
| BetreeMessageUpsert s =>
do
v <- betree_upsert_update_fwd prev s;
msgs0 <- betree_list_pop_front_back msgs;
betree_node_apply_upserts_fwd msgs0 (SOME v) key st
od
od
else
do
(st0,v) <- core_option_option_unwrap_fwd prev st;
monad_ignore_bind
(betree_list_push_front_fwd_back msgs
(key,BetreeMessageInsert v)) (Return (st0,v))
od
od
[betree_node_filter_messages_for_key_fwd_back_def] Definition
⊢ ∀key msgs.
betree_node_filter_messages_for_key_fwd_back key msgs =
case msgs of
BetreeListCons p l =>
(let
(k,m) = p
in
if k = key then
do
msgs0 <-
betree_list_pop_front_back (BetreeListCons (k,m) l);
betree_node_filter_messages_for_key_fwd_back key msgs0
od
else Return (BetreeListCons (k,m) l))
| BetreeListNil => Return BetreeListNil
[betree_node_id_counter_fresh_id_back_def] Definition
⊢ ∀self.
betree_node_id_counter_fresh_id_back self =
do
i <-
u64_add self.betree_node_id_counter_next_node_id
(int_to_u64 1);
Return <|betree_node_id_counter_next_node_id := i|>
od
[betree_node_id_counter_fresh_id_fwd_def] Definition
⊢ ∀self.
betree_node_id_counter_fresh_id_fwd self =
monad_ignore_bind
(u64_add self.betree_node_id_counter_next_node_id
(int_to_u64 1))
(Return self.betree_node_id_counter_next_node_id)
[betree_node_id_counter_new_fwd_def] Definition
⊢ betree_node_id_counter_new_fwd =
Return <|betree_node_id_counter_next_node_id := int_to_u64 0|>
[betree_node_lookup_back_def] Definition
⊢ ∀self key st.
betree_node_lookup_back self key st =
case self of
BetreeNodeInternal node =>
do
(st0,msgs) <-
betree_load_internal_node_fwd node.betree_internal_id st;
pending <-
betree_node_lookup_first_message_for_key_fwd key msgs;
case pending of
BetreeListCons p l =>
(let
(k,msg) = p
in
if k ≠ key then
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back
key msgs (BetreeListCons (k,msg) l))
do
node0 <-
betree_internal_lookup_in_children_back node
key st0;
Return (BetreeNodeInternal node0)
od
else
case msg of
BetreeMessageInsert v =>
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back
key msgs
(BetreeListCons (k,BetreeMessageInsert v)
l)) (Return (BetreeNodeInternal node))
| BetreeMessageDelete =>
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back
key msgs
(BetreeListCons (k,BetreeMessageDelete) l))
(Return (BetreeNodeInternal node))
| BetreeMessageUpsert ufs =>
do
(st1,v) <-
betree_internal_lookup_in_children_fwd node
key st0;
(st2,_) <-
betree_node_apply_upserts_fwd
(BetreeListCons
(k,BetreeMessageUpsert ufs) l) v key
st1;
node0 <-
betree_internal_lookup_in_children_back node
key st0;
pending0 <-
betree_node_apply_upserts_back
(BetreeListCons
(k,BetreeMessageUpsert ufs) l) v key
st1;
msgs0 <-
betree_node_lookup_first_message_for_key_back
key msgs pending0;
monad_ignore_bind
(betree_store_internal_node_fwd
node0.betree_internal_id msgs0 st2)
(Return (BetreeNodeInternal node0))
od)
| BetreeListNil =>
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back key msgs
BetreeListNil)
do
node0 <-
betree_internal_lookup_in_children_back node key
st0;
Return (BetreeNodeInternal node0)
od
od
| BetreeNodeLeaf node' =>
do
(_,bindings) <-
betree_load_leaf_node_fwd node'.betree_leaf_id st;
monad_ignore_bind
(betree_node_lookup_in_bindings_fwd key bindings)
(Return (BetreeNodeLeaf node'))
od
[betree_node_lookup_first_message_after_key_back_def] Definition
⊢ ∀key msgs ret.
betree_node_lookup_first_message_after_key_back key msgs ret =
case msgs of
BetreeListCons p next_msgs =>
(let
(k,m) = p
in
if k = key then
do
next_msgs0 <-
betree_node_lookup_first_message_after_key_back key
next_msgs ret;
Return (BetreeListCons (k,m) next_msgs0)
od
else Return ret)
| BetreeListNil => Return ret
[betree_node_lookup_first_message_after_key_fwd_def] Definition
⊢ ∀key msgs.
betree_node_lookup_first_message_after_key_fwd key msgs =
case msgs of
BetreeListCons p next_msgs =>
(let
(k,m) = p
in
if k = key then
betree_node_lookup_first_message_after_key_fwd key
next_msgs
else Return (BetreeListCons (k,m) next_msgs))
| BetreeListNil => Return BetreeListNil
[betree_node_lookup_first_message_for_key_back_def] Definition
⊢ ∀key msgs ret.
betree_node_lookup_first_message_for_key_back key msgs ret =
case msgs of
BetreeListCons x next_msgs =>
(let
(i,m) = x
in
if u64_ge i key then Return ret
else
do
next_msgs0 <-
betree_node_lookup_first_message_for_key_back key
next_msgs ret;
Return (BetreeListCons (i,m) next_msgs0)
od)
| BetreeListNil => Return ret
[betree_node_lookup_first_message_for_key_fwd_def] Definition
⊢ ∀key msgs.
betree_node_lookup_first_message_for_key_fwd key msgs =
case msgs of
BetreeListCons x next_msgs =>
(let
(i,m) = x
in
if u64_ge i key then
Return (BetreeListCons (i,m) next_msgs)
else
betree_node_lookup_first_message_for_key_fwd key
next_msgs)
| BetreeListNil => Return BetreeListNil
[betree_node_lookup_fwd_def] Definition
⊢ ∀self key st.
betree_node_lookup_fwd self key st =
case self of
BetreeNodeInternal node =>
do
(st0,msgs) <-
betree_load_internal_node_fwd node.betree_internal_id st;
pending <-
betree_node_lookup_first_message_for_key_fwd key msgs;
case pending of
BetreeListCons p l =>
(let
(k,msg) = p
in
if k ≠ key then
do
(st1,opt) <-
betree_internal_lookup_in_children_fwd node
key st0;
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back
key msgs (BetreeListCons (k,msg) l))
(Return (st1,opt))
od
else
case msg of
BetreeMessageInsert v =>
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back
key msgs
(BetreeListCons (k,BetreeMessageInsert v)
l)) (Return (st0,SOME v))
| BetreeMessageDelete =>
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back
key msgs
(BetreeListCons (k,BetreeMessageDelete) l))
(Return (st0,NONE))
| BetreeMessageUpsert ufs =>
do
(st1,v) <-
betree_internal_lookup_in_children_fwd node
key st0;
(st2,v0) <-
betree_node_apply_upserts_fwd
(BetreeListCons
(k,BetreeMessageUpsert ufs) l) v key
st1;
node0 <-
betree_internal_lookup_in_children_back node
key st0;
pending0 <-
betree_node_apply_upserts_back
(BetreeListCons
(k,BetreeMessageUpsert ufs) l) v key
st1;
msgs0 <-
betree_node_lookup_first_message_for_key_back
key msgs pending0;
(st3,_) <-
betree_store_internal_node_fwd
node0.betree_internal_id msgs0 st2;
Return (st3,SOME v0)
od)
| BetreeListNil =>
do
(st1,opt) <-
betree_internal_lookup_in_children_fwd node key st0;
monad_ignore_bind
(betree_node_lookup_first_message_for_key_back key
msgs BetreeListNil) (Return (st1,opt))
od
od
| BetreeNodeLeaf node' =>
do
(st0,bindings) <-
betree_load_leaf_node_fwd node'.betree_leaf_id st;
opt <- betree_node_lookup_in_bindings_fwd key bindings;
Return (st0,opt)
od
[betree_node_lookup_in_bindings_fwd_def] Definition
⊢ ∀key bindings.
betree_node_lookup_in_bindings_fwd key bindings =
case bindings of
BetreeListCons hd tl =>
(let
(i,i0) = hd
in
if i = key then Return (SOME i0)
else if u64_gt i key then Return NONE
else betree_node_lookup_in_bindings_fwd key tl)
| BetreeListNil => Return NONE
[betree_node_lookup_mut_in_bindings_back_def] Definition
⊢ ∀key bindings ret.
betree_node_lookup_mut_in_bindings_back key bindings ret =
case bindings of
BetreeListCons hd tl =>
(let
(i,i0) = hd
in
if u64_ge i key then Return ret
else
do
tl0 <-
betree_node_lookup_mut_in_bindings_back key tl ret;
Return (BetreeListCons (i,i0) tl0)
od)
| BetreeListNil => Return ret
[betree_node_lookup_mut_in_bindings_fwd_def] Definition
⊢ ∀key bindings.
betree_node_lookup_mut_in_bindings_fwd key bindings =
case bindings of
BetreeListCons hd tl =>
(let
(i,i0) = hd
in
if u64_ge i key then Return (BetreeListCons (i,i0) tl)
else betree_node_lookup_mut_in_bindings_fwd key tl)
| BetreeListNil => Return BetreeListNil
[betree_store_internal_node_fwd_def] Definition
⊢ ∀id content st.
betree_store_internal_node_fwd id content st =
do
(st0,_) <- betree_utils_store_internal_node_fwd id content st;
Return (st0,())
od
[betree_store_leaf_node_fwd_def] Definition
⊢ ∀id content st.
betree_store_leaf_node_fwd id content st =
do
(st0,_) <- betree_utils_store_leaf_node_fwd id content st;
Return (st0,())
od
[betree_upsert_update_fwd_def] Definition
⊢ ∀prev st.
betree_upsert_update_fwd prev st =
case prev of
NONE =>
(case st of
BetreeUpsertFunStateAdd v => Return v
| BetreeUpsertFunStateSub i => Return (int_to_u64 0))
| SOME prev0 =>
case st of
BetreeUpsertFunStateAdd v =>
do
margin <- u64_sub core_num_u64_max_c prev0;
if u64_ge margin v then u64_add prev0 v
else Return core_num_u64_max_c
od
| BetreeUpsertFunStateSub v' =>
if u64_ge prev0 v' then u64_sub prev0 v'
else Return (int_to_u64 0)
[core_num_u64_max_body_def] Definition
⊢ core_num_u64_max_body = Return (int_to_u64 18446744073709551615)
[core_num_u64_max_c_def] Definition
⊢ core_num_u64_max_c = get_return_value core_num_u64_max_body
[main_fwd_def] Definition
⊢ main_fwd = Return ()
*)
end
|
