-module(kvs_stream). -description('KVS STREAM LAYER'). -include("kvs.hrl"). -include("stream.hrl"). -include("metainfo.hrl"). -export(?STREAM). -export([metainfo/0]). % boot for sample metainfo() -> #schema { name = kvs, tables = tables() }. tables() -> [ #table { name = writer, fields = record_info(fields, writer) }, #table { name = reader, fields = record_info(fields, reader) } ]. % section: kvs_stream prelude se(X,Y,Z) -> setelement(X,Y,Z). e(X,Y) -> element(X,Y). c4(R,V) -> se(#reader.args, R, V). sn(M,T) -> se(#iter.next, M, T). sp(M,T) -> se(#iter.prev, M, T). si(M,T) -> se(#iter.id, M, T). tab(T) -> e(1, T). id(T) -> e(#iter.id, T). en(T) -> e(#iter.next, T). ep(T) -> e(#iter.prev, T). acc(0) -> next; acc(1) -> prev. % section: next, prev top(#reader{feed=F}=C) -> w(kvs:get(writer,F),top,C). bot(#reader{feed=F}=C) -> w(kvs:get(writer,F),bot,C). next(#reader{cache=[]}) -> {error,empty}; next(#reader{cache={T,R},pos=P}=C) -> n(kvs:get(T,R),C,P+1). prev(#reader{cache=[]}) -> {error,empty}; prev(#reader{cache={T,R},pos=P}=C) -> p(kvs:get(T,R),C,P-1). n({ok,R},C,P) -> r(kvs:get(tab(R),en(R)),C,P); n({error,X},_,_) -> {error,X}. p({ok,R},C,P) -> r(kvs:get(tab(R),ep(R)),C,P); p({error,X},_,_) -> {error,X}. r({ok,R},C,P) -> C#reader{cache={tab(R),id(R)},pos=P}; r({error,X},_,_) -> {error,X}. w({ok,#writer{first=[]}},bot,C) -> C#reader{cache=[],pos=1,dir=0}; w({ok,#writer{first=B}},bot,C) -> C#reader{cache={tab(B),id(B)},pos=1,dir=0}; w({ok,#writer{cache=B,count=Size}},top,C) -> C#reader{cache={tab(B),id(B)},pos=Size,dir=1}; w({error,X},_,_) -> {error,X}. % section: take, drop feed(Feed) -> #reader{args=Args} = take((reader(Feed))#reader{args=-1}), Args. drop(#reader{cache=[]}=C) -> C#reader{args=[]}; drop(#reader{dir=D,cache=B,args=N,pos=P}=C) -> drop(acc(D),N,C,C,P,B). take(#reader{cache=[]}=C) -> C#reader{args=[]}; take(#reader{dir=D,cache=B,args=N,pos=P}=C) -> take(acc(D),N,C,C,[],P). take(_,_,{error,_},C2,R,P) -> C2#reader{args=lists:flatten(R),pos=P,cache={tab(hd(R)),en(hd(R))}}; take(_,0,_,C2,R,P) -> C2#reader{args=lists:flatten(R),pos=P,cache={tab(hd(R)),en(hd(R))}}; take(A,N,#reader{cache={T,I},pos=P}=C,C2,R,_) -> take(A,N-1,?MODULE:A(C),C2,[element(2,kvs:get(T,I))|R],P). drop(_,_,{error,_},C2,P,B) -> C2#reader{pos=P,cache=B}; drop(_,0,_,C2,P,B) -> C2#reader{pos=P,cache=B}; drop(A,N,#reader{cache=B,pos=P}=C,C2,_,_) -> drop(A,N-1,?MODULE:A(C),C2,P,B). % new, save, load, up, down, top, bot load_reader (Id) -> case kvs:get(reader,Id) of {ok,C} -> C; _ -> #reader{id=[]} end. writer (Id) -> case kvs:get(writer,Id) of {ok,W} -> W; {error,_} -> #writer{id=Id} end. reader (Id) -> case kvs:get(writer,Id) of {ok,#writer{first=[]}} -> #reader{id=kvs:seq(reader,1),feed=Id,cache=[]}; {ok,#writer{first=F}} -> #reader{id=kvs:seq(reader,1),feed=Id,cache={tab(F),id(F)}}; {error,_} -> save(#writer{id=Id}), reader(Id) end. save (C) -> NC = c4(C,[]), kvs:put(NC), NC. % add add(#writer{args=M}=C) when element(2,M) == [] -> add(si(M,kvs:seq(tab(M),1)),C); add(#writer{args=M}=C) -> add(M,C). add(M,#writer{cache=[]}=C) -> _Id=id(M), N=sp(sn(M,[]),[]), kvs:put(N), C#writer{cache=N,count=1,first=N}; %add(M,#writer{cache=V,count=S}=C) -> % N=sp(sn(M,[]),id(V)), P=sn(V,id(M)), kvs:put([N,P]), % C#writer{cache=N,count=S+1}. add(M,#writer{cache=V1,count=S}=C) -> {ok,V} = kvs:get(tab(V1),id(V1)), N=sp(sn(M,[]),id(V)), P=sn(V,id(M)), kvs:put([N,P]), C#writer{cache=N,count=S+1}. remove(Rec,Feed) -> {ok,W=#writer{count=Count}} = kvs:get(writer,Feed), NC = Count-1, kvs:save(W#writer{count=NC}), NC. append(Rec,Feed) -> kvs:ensure(#writer{id=Feed}), Name = element(1,Rec), Id = element(2,Rec), case kvs:get(Name,Id) of {ok,_} -> Id; {error,_} -> kvs:save(kvs:add((kvs:writer(Feed))#writer{args=Rec})), Id end. cut(_Feed,Id) -> case kvs:get(writer,Id) of {ok,#writer{count=N}} -> {ok,N}; {error,_} -> {error,not_found} end.