Store child-refs as {Pos,Size} so we can pread

This allows us to use file:pread to read a child-node, rather than two separate reads (one for node block size, and then one for the node block itself). Also, encode the level# in node header, so that scanning leafs doesn't need to decode the node contents for inner nodes.
2012-01-06 00:29:05 +01:00 · 2012-01-06 00:29:05 +01:00 · b21e253324
commit b21e253324
parent 2f985d8576
3 changed files with 42 additions and 21 deletions
--- a/src/fractal_btree_reader.erl
+++ b/src/fractal_btree_reader.erl
@ -37,7 +37,7 @@ fold0(File,Fun,_InnerNode,Acc0) ->
    fold1(File,Fun,Acc0).

 fold1(File,Fun,Acc0) ->
-    case read_node(File) of
+    case read_leaf_node(File) of
        eof ->
            Acc0;
        {ok, Node} ->
@ -50,12 +50,12 @@ first_node(#index{file=File}) ->
            {node, Members}
    end.

-next_node(#index{file=File}=Index) ->
-    case read_node(File) of
+next_node(#index{file=File}=_Index) ->
+    case read_leaf_node(File) of
        {ok, #node{level=0, members=Members}} ->
            {node, Members};
-        {ok, #node{level=N}} when N>0 ->
-            next_node(Index);
+%        {ok, #node{level=N}} when N>0 ->
+%            next_node(Index);
        eof ->
            end_of_data
    end.
@ -82,8 +82,8 @@ lookup_in_node(_File,#node{level=0,members=Members},Key) ->

 lookup_in_node(File,#node{members=Members},Key) ->
    case find(Key, Members) of
-        {ok, Pos} ->
-            {ok, Node} = read_node(File, Pos),
+        {ok, {Pos,Size}} ->
+            {ok, Node} = read_node(File, {Pos,Size}),
            lookup_in_node(File, Node, Key);
        notfound ->
            notfound
@ -100,21 +100,37 @@ find(_, _) ->
    notfound.


+read_node(File,{Pos,Size}) ->
+    {ok, <<_:32, Level:16/unsigned, Data/binary>>} = file:pread(File, Pos, Size),
+    fractal_btree_util:decode_index_node(Level, Data);
+
 read_node(File,Pos) ->

    {ok, Pos} = file:position(File, Pos),
    Result = read_node(File),
-%    error_logger:info_msg("decoded ~p ~p~n", [Pos, Result]),
+%   error_logger:info_msg("decoded ~p ~p~n", [Pos, Result]),
    Result.

 read_node(File) ->
-    {ok, <<Len:32>>} = file:read(File, 4),
+    {ok, <<Len:32, Level:16/unsigned>>} = file:read(File, 6),
    case Len of
        0 -> eof;
        _ ->
-            {ok, Data} = file:read(File, Len),
-            {ok, Node} = fractal_btree_util:decode_index_node(Data),
+            {ok, Data} = file:read(File, Len-2),
+            {ok, Node} = fractal_btree_util:decode_index_node(Level, Data),
            {ok, Node}
    end.


+read_leaf_node(File) ->
+    case file:read(File, 6) of
+        {ok, <<0:32, _:16>>} ->
+            eof;
+        {ok, <<Len:32, 0:16>>} ->
+            {ok, Data} = file:read(File, Len-2),
+            fractal_btree_util:decode_index_node(0, Data);
+        {ok, <<Len:32, _:16>>} ->
+            {ok, _} = file:position(File, {cur,Len-2}),
+            read_leaf_node(File)
+    end.
+
--- a/src/fractal_btree_util.erl
+++ b/src/fractal_btree_util.erl
@ -15,17 +15,19 @@ estimate_node_size_increment(_KVList,Key,Value) ->
              is_binary(Value) ->
                  5 + byte_size(Value);
              is_atom(Value) ->
-                  8
+                  8;
+              is_tuple(Value) ->
+                  13
          end.

 encode_index_node(Level, KVList) ->
    Data = %zlib:zip(
-             erlang:term_to_binary({Level, KVList})
+             erlang:term_to_binary(KVList)
           % )
        ,
-    Size = byte_size(Data),
-    {ok, Size+4, [ <<Size:32>> | Data ] }.
+    Size = byte_size(Data)+2,
+    {ok, Size+4, [ <<Size:32/unsigned, Level:16/unsigned>> | Data ] }.

-decode_index_node(Data) ->
-    {Level,KVList} = erlang:binary_to_term(Data), %zlib:unzip(Data)),
+decode_index_node(Level, <<Data/binary>>) ->
+    KVList = erlang:binary_to_term(Data), %zlib:unzip(Data)),
    {ok, {node, Level, KVList}}.
--- a/src/fractal_btree_writer.erl
+++ b/src/fractal_btree_writer.erl
@ -22,6 +22,7 @@
                 index_file_pos,

                 last_node_pos :: pos_integer(),
+                 last_node_size :: pos_integer(),

                 nodes = [] :: [ #node{} ],

@ -97,12 +98,12 @@ code_change(_OldVsn, State, _Extra) ->



-flush_nodes(#state{ nodes=[], last_node_pos=LastNodePos, bloom=Ref }=State) ->
+flush_nodes(#state{ nodes=[], last_node_pos=LastNodePos, last_node_size=LastNodeSize, bloom=Ref }=State) ->

    Bloom = zlib:zip(ebloom:serialize(Ref)),
    BloomSize = byte_size(Bloom),

-    Trailer = << 0:32, Bloom/binary, BloomSize:32/unsigned, LastNodePos:64/unsigned >>,
+    Trailer = << 0:32, Bloom/binary, BloomSize:32/unsigned,  LastNodePos:64/unsigned >>,
    IdxFile = State#state.index_file,

    ok = file:write(IdxFile, Trailer),
@ -155,7 +156,9 @@ close_node(#state{nodes=[#node{ level=Level, members=NodeMembers }|RestNodes]} =
    ok = file:write(State#state.index_file, Data),

    {FirstKey, _} = hd(OrderedMembers),
-    add_record(Level+1, FirstKey, NodePos,
+    add_record(Level+1, FirstKey, {NodePos, DataSize},
               State#state{ nodes          = RestNodes,
                            index_file_pos = NodePos + DataSize,
-                            last_node_pos  = NodePos}).
+                            last_node_pos  = NodePos,
+                            last_node_size = DataSize
+                          }).