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指南:设计原则 | Guide: Design principles
指南:效率指南 | Guide: Efficiency guide
指南:嵌入式 | Guide: Embedded
指南:ERTS | Guide: ERTS
指南:开始 | Guide: Getting started
指南:安装指南 | Guide: Installation guide
指南:OAM | Guide: OAM
指南:编程举例 | Guide: Programming examples
指南:参考手册 | Guide: Reference manual
指南:系统原则 | Guide: System principles
指南:教程 | Guide: Tutorial
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直径 | diameter
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核心 | kernel
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1.介绍(mnesia) | 1. Introduction (mnesia)
2. Mnesia
3.开始 | 3. Getting Started
4.构建Mnesia数据库 | 4. Build a Mnesia Database
5.交易和其他访问上下文 | 5. Transactions and Other Access Contexts
6.杂项Mnesia功能 | 6. Miscellaneous Mnesia Features
7. Mnesia系统信息 | 7. Mnesia System Information
8.将Mnesia与SNMP结合使用 | 8. Combine Mnesia with SNMP
9.附录A:备份回调接口 | 9. Appendix A: Backup Callback Interface
110.附录B:活动访问回调接口 | 0. Appendix B: Activity Access Callback Interface
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11.附录C:分段表散列回调接口 | 11. Appendix C: Fragmented Table Hashing Callback Interface

11 附录C:碎片化表哈希回调接口

11.1 mnesia_frag_hash回调行为

-module(mnesia_frag_hash).

%% Fragmented Table Hashing callback functions
-export([
	 init_state/2,
	 add_frag/1,
	 del_frag/1,
	 key_to_frag_number/2,
	 match_spec_to_frag_numbers/2
	]).

-record(hash_state,
	{n_fragments,
	 next_n_to_split,
	 n_doubles,
	 function}).

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

init_state(_Tab, State) when State == undefined ->
    #hash_state{n_fragments     = 1,
		next_n_to_split = 1,
		n_doubles       = 0,
		function        = phash2}.

convert_old_state{hash_state, N, P, L}) ->
    #hash_state{n_fragments     = N,
		next_n_to_split = P,
		n_doubles       = L,
		function        = phash}.

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

add_frag(#hash_state{next_n_to_split = SplitN, n_doubles = L, n_fragments = N} = State) ->
    P = SplitN + 1,
    NewN = N + 1,
    State2 = case power2(L) + 1 of
		 P2 when P2 == P ->
		     State#hash_state{n_fragments      = NewN,
				      n_doubles        = L + 1,
				      next_n_to_split = 1};
		 _ ->
		     State#hash_state{n_fragments     = NewN,
				      next_n_to_split = P}
	     end,
    {State2, [SplitN], [NewN]};
add_frag(OldState) ->
    State = convert_old_state(OldState),
    add_frag(State).

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

del_frag(#hash_state{next_n_to_split = SplitN, n_doubles = L, n_fragments = N} = State) ->
    P = SplitN - 1,
    if
	P < 1 ->
	    L2 = L - 1,
	    MergeN = power2(L2),
	    State2 = State#hash_state{n_fragments     = N - 1,
				      next_n_to_split = MergeN,
				      n_doubles       = L2},
	    {State2, [N], [MergeN]};
	true ->
	    MergeN = P,
	    State2 = State#hash_state{n_fragments     = N - 1,
				      next_n_to_split = MergeN},
	    {State2, [N], [MergeN]}
	end;
del_frag(OldState) ->
    State = convert_old_state(OldState),
    del_frag(State).

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

key_to_frag_number(#hash_state{function = phash, n_fragments = N, n_doubles = L}, Key) ->
    A = erlang:phash(Key, power2(L + 1)),
    if
	A > N ->
	    A - power2(L
	true ->
	    A
    end;
key_to_frag_number(#hash_state{function = phash2, n_fragments = N, n_doubles = L}, Key) ->
    A = erlang:phash2(Key, power2(L + 1)) + 1,
    if
	A > N ->
	    A - power2(L
	true ->
	    A
    end;
key_to_frag_number(OldState, Key) ->
    State = convert_old_state(OldState),
    key_to_frag_number(State, Key).

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

match_spec_to_frag_numbers(#hash_state{n_fragments = N} = State, MatchSpec) ->
    case MatchSpec of
	[{HeadPat, _, _}] when is_tuple(HeadPat), tuple_size(HeadPat) > 2 ->
	    KeyPat = element(2, HeadPat),
	    case has_var(KeyPat) of
		false ->
		    [key_to_frag_number(State, KeyPat)];
		true ->
		    lists:seq(1, N)
	    end;
	_ -> 
	    lists:seq(1, N)
    end;
match_spec_to_frag_numbers(OldState, MatchSpec) ->
    State = convert_old_state(OldState),
    match_spec_to_frag_numbers(State, MatchSpec).

power2(Y) ->
    1 bsl Y. % trunc(math:pow(2, Y)).