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author | Anders Svensson <[email protected]> | 2011-10-14 19:40:29 +0200 |
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committer | Anders Svensson <[email protected]> | 2011-10-17 12:30:58 +0200 |
commit | 14bf1dc855bbd973bb15578f418e37ab2d4f17fe (patch) | |
tree | ed67388edcead44b9867eb034c84b4394d0cf117 /lib/diameter/src/base/diameter_info.erl | |
parent | f4c38ecd803451280d0021bcfa7f2ad25b96cbcd (diff) | |
download | otp-14bf1dc855bbd973bb15578f418e37ab2d4f17fe.tar.gz otp-14bf1dc855bbd973bb15578f418e37ab2d4f17fe.tar.bz2 otp-14bf1dc855bbd973bb15578f418e37ab2d4f17fe.zip |
One makefile for src build instead of recursion
Simpler, no duplication of similar makefiles and makes for
better dependencies. (Aka, recursive make considered harmful.)
Diffstat (limited to 'lib/diameter/src/base/diameter_info.erl')
-rw-r--r-- | lib/diameter/src/base/diameter_info.erl | 869 |
1 files changed, 869 insertions, 0 deletions
diff --git a/lib/diameter/src/base/diameter_info.erl b/lib/diameter/src/base/diameter_info.erl new file mode 100644 index 0000000000..39d32d07cd --- /dev/null +++ b/lib/diameter/src/base/diameter_info.erl @@ -0,0 +1,869 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2010-2011. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +-module(diameter_info). + +-export([usage/1, + format/1, + format/2, + format/3, + format/4, + table/2, + tables/1, + tables/2, + split/2, + split/3, + tab2list/1, + modules/1, + versions/1, + version_info/1, + attrs/2, + compiled/1, + procs/1, + latest/1, + list/1]). + +%% Support for rolling your own. +-export([sep/0, + sep/1, + widest/1, + p/1, + p/3]). + +-compile({no_auto_import,[max/2]}). + +-export([collect/2]). + +-define(LONG_TIMEOUT, 30000). +-define(VALUES(Rec), tl(tuple_to_list(Rec))). + +%%% ---------------------------------------------------------- +%%% # usage(String) +%%% ---------------------------------------------------------- + +usage(Usage) -> + sep($+), + io:format("+ ~p~n", [?MODULE]), + io:format("~n~s~n~n", [compact(Usage)]), + sep($+). + +%%% +%%% The function format/3, for pretty-printing tables, comes in +%%% several flavours. +%%% + +%%% ---------------------------------------------------------- +%%% # format(TableName, Fields, SplitFun) +%%% +%%% Input: TableName = atom() name of table. +%%% +%%% Fields = List of field names for the records maintained +%%% in the specified table. Can be empty, in which +%%% case entries are listed unadorned of field names +%%% and SplitFun is unused. +%%% | Integer, equivalent to a list with this many '' atoms. +%%% | Arity 1 fun mapping a table entry to a Fields list +%%% or a tuple {Fields, Values} of lists of the same +%%% length. +%%% +%%% If Fields is a list then its length must be the same +%%% as or one less than the size of the tuples contained +%%% in the table. (The values printed then being those +%%% in the tuple or record in question.) +%%% +%%% SplitFun = Arity 3 fun applied as +%%% +%%% SplitFun(TableName, Fields, Values) +%%% +%%% in order to obtain a tuple +%%% +%%% {Field, RestFields, Value, RestValues} +%%% +%%% for which Field/Value will be formatted on +%%% STDOUT. (This is to allow a value to be +%%% transformed before being output by returning a +%%% new value and/or replacing the remainder of +%%% the list.) The returned lists must have the +%%% same length and Field here is an atom, '' causing +%%% a value to be listed unadorned of the field name. +%%% +%%% Field can also be list of field names, in +%%% which case Value must be a record of the +%%% corresponding type. +%%% +%%% | Arity 2 fun applied as SplitFun(Fields, Values). +%%% +%%% Output: Count | undefined +%%% +%%% Count = Number of entries output. +%%% +%%% Description: Pretty-print records in a named table. +%%% ---------------------------------------------------------- + +format(Table, Fields, SFun) + when is_atom(Table), is_function(SFun, 2) -> + ft(ets:info(Table), Table, SFun, Fields); + +format(Table, Fields, SFun) + when is_atom(Table), is_function(SFun, 3) -> + format(Table, Fields, fun(Fs,Vs) -> SFun(Table, Fs, Vs) end); + +%%% ---------------------------------------------------------- +%%% # format(Recs, Fields, SplitFun) +%%% +%%% Input: Recs = list of records/tuples +%%% Fields = As for format(Table, Fields, SplitFun), a table +%%% entry there being a member of Recs. +%%% SplitFun = Arity 3 fun applied as above but with the TableName +%%% replaced by the first element of the records in +%%% question. +%%% | Arity 2 fun as for format/3. +%%% +%%% Output: length(Recs) +%%% +%%% Description: Pretty print records/tuples. +%%% ---------------------------------------------------------- + +format(Recs, Fields, SFun) + when is_list(Recs), is_function(SFun, 3) -> + lists:foldl(fun(R,A) -> f(recsplit(SFun, R), 0, Fields, R, A) end, + 0, + Recs); + +format(Recs, Fields, SFun) + when is_list(Recs), is_function(SFun, 2) -> + lists:foldl(fun(R,A) -> f(SFun, 0, Fields, R, A) end, + 0, + Recs); + +%%% ---------------------------------------------------------- +%%% # format(Tables, SplitFun, CollectFun) +%%% +%%% Input: Tables = list of {TableName, Fields}. +%%% SplitFun = As for format(Table, Fields, SplitFun). +%%% CollectFun = arity 1 fun mapping a table name to a list +%%% of elements. A non-list can be returned to indicate +%%% that the table in question doesn't exist. +%%% +%%% Output: Number of entries output. +%%% +%%% Description: Pretty-print records in a named tables as collected +%%% from known nodes. Each table listing is preceeded by +%%% a banner. +%%% ---------------------------------------------------------- + +format(Tables, SFun, CFun) + when is_list(Tables), is_function(CFun, 1) -> + format_remote(Tables, + SFun, + rpc:multicall(nodes(known), + ?MODULE, + collect, + [CFun, lists:map(fun({T,_}) -> T end, Tables)], + ?LONG_TIMEOUT)); + +%%% ---------------------------------------------------------- +%%% # format(LocalTables, RemoteTables, SplitFun, CollectFun) +%%% # format(LocalTables, RemoteTables, SplitFun) +%%% +%%% Input: LocalTables = list of {TableName, Fields}. +%%% | list of {TableName, Recs, Fields} +%%% RemoteTable = list of {TableName, Fields}. +%%% SplitFun, CollectFun = As for format(Table, CollectFun, SplitFun). +%%% +%%% Output: Number of entries output. +%%% +%%% Description: Pretty-print records in a named tables as collected +%%% from local and remote nodes. Each table listing is +%%% preceeded by a banner. +%%% ---------------------------------------------------------- + +format(Local, Remote, SFun) -> + format(Local, Remote, SFun, fun tab2list/1). + +format(Local, Remote, SFun, CFun) + when is_list(Local), is_list(Remote), is_function(CFun, 1) -> + format_local(Local, SFun) + format(Remote, SFun, CFun). + +%%% ---------------------------------------------------------- +%%% # format(Tables, SplitFun) +%%% ---------------------------------------------------------- + +format(Tables, SFun) + when is_list(Tables), (is_function(SFun, 2) or is_function(SFun, 3)) -> + format(Tables, SFun, fun tab2list/1); + +format(Tables, CFun) + when is_list(Tables), is_function(CFun, 1) -> + format(Tables, fun split/2, CFun). + +%%% ---------------------------------------------------------- +%%% # format(Table|Tables) +%%% ---------------------------------------------------------- + +format(Table) + when is_atom(Table) -> + format(Table, [], fun split/2); + +format(Tables) + when is_list(Tables) -> + format(Tables, fun split/2, fun tab2list/1). + +%%% ---------------------------------------------------------- +%%% # split(TableName, Fields, Values) +%%% +%%% Description: format/3 SplitFun that does nothing special. +%%% ---------------------------------------------------------- + +split([F|FT], [V|VT]) -> + {F, FT, V, VT}. + +split(_, Fs, Vs) -> + split(Fs, Vs). + +%%% ---------------------------------------------------------- +%%% # tab2list(TableName) +%%% +%%% Description: format/4 CollectFun that extracts records from an +%%% existing ets table. +%%% ---------------------------------------------------------- + +tab2list(Table) -> + case ets:info(Table) of + undefined = No -> + No; + _ -> + ets:tab2list(Table) + end. + +list(Table) -> + l(tab2list(Table)). + +l(undefined = No) -> + No; +l(List) + when is_list(List) -> + io:format("~p~n", [List]), + length(List). + +%%% ---------------------------------------------------------- +%%% # table(TableName, Fields) +%%% ---------------------------------------------------------- + +table(Table, Fields) -> + format(Table, Fields, fun split/2). + +%%% ---------------------------------------------------------- +%%% # tables(LocalTables, RemoteTables) +%%% ---------------------------------------------------------- + +tables(Local, Remote) -> + format(Local, Remote, fun split/2). + +%%% ---------------------------------------------------------- +%%% # tables(Tables) +%%% ---------------------------------------------------------- + +tables(Tables) -> + format(Tables, fun split/2). + +%%% ---------------------------------------------------------- +%%% # modules(Prefix|Prefixes) +%%% +%%% Input: Prefix = atom() +%%% +%%% Description: Return the list of all loaded modules with the +%%% specified prefix. +%%% ---------------------------------------------------------- + +modules(Prefix) + when is_atom(Prefix) -> + lists:sort(mods(Prefix)); + +modules(Prefixes) + when is_list(Prefixes) -> + lists:sort(lists:flatmap(fun modules/1, Prefixes)). + +mods(Prefix) -> + P = atom_to_list(Prefix), + lists:filter(fun(M) -> + lists:prefix(P, atom_to_list(M)) + end, + erlang:loaded()). + +%%% ---------------------------------------------------------- +%%% # versions(Modules|Prefix) +%%% +%%% Output: Number of modules listed. +%%% +%%% Description: List the versions of the specified modules. +%%% ---------------------------------------------------------- + +versions(Modules) -> + {SysInfo, OsInfo, ModInfo} = version_info(Modules), + sep(), + print_sys_info(SysInfo), + sep(), + print_os_info(OsInfo), + sep(), + print_mod_info(ModInfo), + sep(). + +%%% ---------------------------------------------------------- +%%% # attrs(Modules|Prefix, Attr|FormatFun) +%%% +%%% Output: Number of modules listed. +%%% +%%% Description: List an attribute from module_info. +%%% ---------------------------------------------------------- + +attrs(Modules, Attr) + when is_atom(Attr) -> + attrs(Modules, fun(W,M) -> attr(W, M, Attr, fun attr/1) end); + +attrs(Modules, Fun) + when is_list(Modules) -> + sep(), + W = 2 + widest(Modules), + N = lists:foldl(fun(M,A) -> Fun(W,M), A+1 end, 0, Modules), + sep(), + N; + +attrs(Prefix, Fun) -> + attrs(modules(Prefix), Fun). + +%% attr/1 + +attr(T) when is_atom(T) -> + atom_to_list(T); +attr(N) when is_integer(N) -> + integer_to_list(N); +attr(V) -> + case is_list(V) andalso lists:all(fun is_char/1, V) of + true -> %% string + V; + false -> + io_lib:format("~p", [V]) + end. + +is_char(C) -> + 0 =< C andalso C < 256. + +%% attr/4 + +attr(Width, Mod, Attr, VFun) -> + io:format(": ~*s~s~n", [-Width, Mod, attr(Mod, Attr, VFun)]). + +attr(Mod, Attr, VFun) -> + Key = key(Attr), + try + VFun(val(Attr, keyfetch(Attr, Mod:module_info(Key)))) + catch + _:_ -> + "-" + end. + +attr(Mod, Attr) -> + attr(Mod, Attr, fun attr/1). + +key(time) -> compile; +key(_) -> attributes. + +val(time, {_,_,_,_,_,_} = T) -> + lists:flatten(io_lib:format("~p-~2..0B-~2..0B ~2..0B:~2..0B:~2..0B", + tuple_to_list(T))); +val(_, [V]) -> + V. + +%%% ---------------------------------------------------------- +%%% # compiled(Modules|Prefix) +%%% +%%% Output: Number of modules listed. +%%% +%%% Description: List the compile times of the specified modules. +%%% ---------------------------------------------------------- + +compiled(Modules) + when is_list(Modules) -> + attrs(Modules, fun compiled/2); + +compiled(Prefix) -> + compiled(modules(Prefix)). + +compiled(Width, Mod) -> + io:format(": ~*s~19s ~s~n", [-Width, + Mod, + attr(Mod, time), + opt(attr(Mod, date))]). + +opt("-") -> + ""; +opt(D) -> + "(" ++ D ++ ")". + +%%% ---------------------------------------------------------- +%%% # procs(Pred|Prefix|Prefixes|Pid|Pids) +%%% +%%% Input: Pred = arity 2 fun returning true|false when applied to a +%%% pid and its process info. +%%% +%%% Output: Number of processes listed. +%%% +%%% Description: List process info for all local processes that test +%%% true with the specified predicate. With the prefix +%%% form, those processes that are either currently +%%% executing in, started executing in, or have a +%%% registered name with a specified prefix are listed. +%%% With the pid forms, only those process that are local +%%% are listed and those that are dead list only the pid +%%% itself. +%%% ---------------------------------------------------------- + +procs(Pred) + when is_function(Pred, 2) -> + procs(Pred, erlang:processes()); + +procs([]) -> + 0; + +procs(Prefix) + when is_atom(Prefix) -> + procs(fun(_,I) -> info(fun pre1/2, I, atom_to_list(Prefix)) end); + +procs(Prefixes) + when is_atom(hd(Prefixes)) -> + procs(fun(_,I) -> info(fun pre/2, I, Prefixes) end); + +procs(Pid) + when is_pid(Pid) -> + procs(fun true2/2, [Pid]); + +procs(Pids) + when is_list(Pids) -> + procs(fun true2/2, Pids). + +true2(_,_) -> + true. + +%% procs/2 + +procs(Pred, Pids) -> + Procs = lists:foldl(fun(P,A) -> + procs_acc(Pred, P, catch process_info(P), A) + end, + [], + Pids), + sep(0 < length(Procs)), + lists:foldl(fun(T,N) -> p(T), sep(), N+1 end, 0, Procs). + +procs_acc(_, Pid, undefined, Acc) -> %% dead + [[{pid, Pid}] | Acc]; +procs_acc(Pred, Pid, Info, Acc) + when is_list(Info) -> + p_acc(Pred(Pid, Info), Pid, Info, Acc); +procs_acc(_, _, _, Acc) -> + Acc. + +p_acc(true, Pid, Info, Acc) -> + [[{pid, Pid} | Info] | Acc]; +p_acc(false, _, _, Acc) -> + Acc. + +%% info/3 + +info(Pred, Info, T) -> + lists:any(fun(I) -> i(Pred, I, T) end, Info). + +i(Pred, {K, {M,_,_}}, T) + when K == current_function; + K == initial_call -> + Pred(M,T); +i(Pred, {registered_name, N}, T) -> + Pred(N,T); +i(_,_,_) -> + false. + +pre1(A, Pre) -> + lists:prefix(Pre, atom_to_list(A)). + +pre(A, Prefixes) -> + lists:any(fun(P) -> pre1(A, atom_to_list(P)) end, Prefixes). + +%%% ---------------------------------------------------------- +%%% # latest(Modules|Prefix) +%%% +%%% Output: {Mod, {Y,M,D,HH,MM,SS}, Version} +%%% +%%% Description: Return the compile time of the most recently compiled +%%% module from the specified non-empty list. The modules +%%% are assumed to exist. +%%% ---------------------------------------------------------- + +latest(Prefix) + when is_atom(Prefix) -> + latest(modules(Prefix)); + +latest([_|_] = Modules) -> + {Mod, T} + = hd(lists:sort(fun latest/2, lists:map(fun compile_time/1, Modules))), + {Mod, T, app_vsn(Mod)}. + +app_vsn(Mod) -> + keyfetch(app_vsn, Mod:module_info(attributes)). + +compile_time(Mod) -> + T = keyfetch(time, Mod:module_info(compile)), + {Mod, T}. + +latest({_,T1},{_,T2}) -> + T1 > T2. + +%%% ---------------------------------------------------------- +%%% version_info(Modules|Prefix) +%%% +%%% Output: {SysInfo, OSInfo, [ModInfo]} +%%% +%%% SysInfo = {Arch, Vers} +%%% OSInfo = {Vers, {Fam, Name}} +%%% ModInfo = {Vsn, AppVsn, Time, CompilerVsn} +%%% ---------------------------------------------------------- + +version_info(Prefix) + when is_atom(Prefix) -> + version_info(modules(Prefix)); + +version_info(Mods) + when is_list(Mods) -> + {sys_info(), os_info(), [{M, mod_version_info(M)} || M <- Mods]}. + +mod_version_info(Mod) -> + try + Info = Mod:module_info(), + [[Vsn], AppVsn] = get_values(attributes, [vsn, app_vsn], Info), + [Ver, Time] = get_values(compile, [version, time], Info), + [Vsn, AppVsn, Ver, Time] + catch + _:_ -> + [] + end. + +get_values(Attr, Keys, Info) -> + As = proplists:get_value(Attr, Info), + [proplists:get_value(K, As, "?") || K <- Keys]. + +sys_info() -> + [A,V] = [chomp(erlang:system_info(K)) || K <- [system_architecture, + system_version]], + {A,V}. + +os_info() -> + {os:version(), case os:type() of + {_Fam, _Name} = T -> + T; + Fam -> + {Fam, ""} + end}. + +chomp(S) -> + string:strip(S, right, $\n). + +print_sys_info({Arch, Ver}) -> + io:format("System info:~n" + " architecture : ~s~n" + " version : ~s~n", + [Arch, Ver]). + +print_os_info({Vsn, {Fam, Name}}) -> + io:format("OS info:~n" + " family : ~s ~s~n" + " version : ~s~n", + [str(Fam), bkt(str(Name)), vsn(Vsn)]). + +print_mod_info(Mods) -> + io:format("Module info:~n", []), + lists:foreach(fun print_mod/1, Mods). + +print_mod({Mod, []}) -> + io:format(" ~w:~n", [Mod]); +print_mod({Mod, [Vsn, AppVsn, Ver, {Year, Month, Day, Hour, Min, Sec}]}) -> + Time = io_lib:format("~w-~2..0w-~2..0w ~2..0w:~2..0w:~2..0w", + [Year, Month, Day, Hour, Min, Sec]), + io:format(" ~w:~n" + " vsn : ~s~n" + " app_vsn : ~s~n" + " compiled : ~s~n" + " compiler : ~s~n", + [Mod, str(Vsn), str(AppVsn), Time, Ver]). + +str(A) + when is_atom(A) -> + atom_to_list(A); +str(S) + when is_list(S) -> + S; +str(T) -> + io_lib:format("~p", [T]). + +bkt("" = S) -> + S; +bkt(S) -> + [$[, S, $]]. + +vsn(T) when is_tuple(T) -> + case [[$., integer_to_list(N)] || N <- tuple_to_list(T)] of + [[$.,S] | Rest] -> + [S | Rest]; + [] = S -> + S + end; +vsn(T) -> + str(T). + +%%% ---------------------------------------------------------- +%%% ---------------------------------------------------------- + +%% p/1 + +p(Info) -> + W = 2 + widest([K || {K,_} <- Info]), + lists:foreach(fun({K,V}) -> p(W,K,V) end, Info). + +p(Width, Key, Value) -> + io:format(": ~*s: ~p~n", [-Width, Key, Value]). + +%% sep/[01] + +sep() -> + sep($#). + +sep(true) -> + sep(); +sep(false) -> + ok; + +sep(Ch) -> + io:format("~c~65c~n", [Ch, $-]). + +%% widest/1 + +widest(List) -> + lists:foldl(fun widest/2, 0, List). + +widest(T, Max) + when is_atom(T) -> + widest(atom_to_list(T), Max); + +widest(T, Max) + when is_integer(T) -> + widest(integer_to_list(T), Max); + +widest(T, Max) + when is_list(T) -> %% string + max(length(T), Max). + +pt(T) -> + io:format(": ~p~n", [T]). + +recsplit(SFun, Rec) -> + fun(Fs,Vs) -> SFun(element(1, Rec), Fs, Vs) end. + +max(A, B) -> + if A > B -> A; true -> B end. + +keyfetch(Key, List) -> + {Key,V} = lists:keyfind(Key, 1, List), + V. + +%% ft/4 + +ft(undefined = No, _, _, _) -> + No; + +ft(_, Table, SFun, Fields) -> + ets:foldl(fun(R,A) -> + f(SFun, 0, Fields, R, A) + end, + 0, + Table). + +%% f/5 + +f(SFun, Width, Fields, Rec, Count) -> + ff(SFun, Width, fields(Fields, Rec), Rec, Count). + +ff(SFun, Width, Fields, Rec, Count) -> + sep(0 == Count), + f(SFun, Width, Fields, Rec), + sep(), + Count+1. + +fields(N, _) + when is_integer(N), N >= 0 -> + lists:duplicate(N, ''); %% list values unadorned +fields(Fields, R) + when is_function(Fields, 1) -> + fields(Fields(R), R); +fields({Fields, Values} = T, _) + when length(Fields) == length(Values) -> + T; +fields(Fields, _) + when is_list(Fields) -> + Fields. %% list field/value pairs, or tuples if [] + +%% f/4 + +%% Empty fields list: just print the entry. +f(_, _, [], Rec) + when is_tuple(Rec) -> + pt(Rec); + +%% Otherwise list field names/values. +f(SFun, Width, {Fields, Values}, _) -> + f(SFun, Width, Fields, Values); + +f(SFun, Width, Fields, Rec) + when is_tuple(Rec) -> + f(SFun, Width, Fields, values(Fields, Rec)); + +f(_, _, [], []) -> + ok; + +f(SFun, Width, [HF | _] = Fields, Values) -> + {F, FT, V, VT} = SFun(Fields, Values), + if is_list(F) -> %% V is a record + break($>, HF), + f(SFun, Width, F, values(F,V)), + break($<, HF), + f(SFun, Width, FT, VT); + F == '' -> %% no field name: just list value + pt(V), + f(SFun, Width, FT, VT); + true -> %% list field/value. + W = max(Width, 1 + widest(Fields)), + p(W, F, V), + f(SFun, W, FT, VT) + end. + +values(Fields, Rec) + when length(Fields) == size(Rec) - 1 -> + ?VALUES(Rec); +values(Fields, T) + when length(Fields) == size(T) -> + tuple_to_list(T). + +%% format_local/2 + +format_local(Tables, SFun) -> + lists:foldl(fun(T,A) -> fl(SFun, T, A) end, 0, Tables). + +fl(SFun, {Table, Recs, Fields}, Count) -> + sep(), + io:format("# ~p~n", [Table]), + N = fmt(Recs, Fields, SFun), + sep(0 == N), + Count + N; + +fl(SFun, {Table, Fields}, Count) -> + fl(SFun, {Table, Table, Fields}, Count). + +%% fmt/3 + +fmt(T, Fields, SFun) -> + case format(T, Fields, SFun) of + undefined -> + 0; + N -> + N + end. + +%% break/2 + +break(C, T) -> + io:format("~c ~p~n", [C, T]). + +%% collect/2 +%% +%% Output: {[{TableName, Recs}, ...], node()} + +collect(CFun, TableNames) -> + {lists:foldl(fun(N,A) -> c(CFun, N, A) end, [], TableNames), node()}. + +c(CFun, TableName, Acc) -> + case CFun(TableName) of + Recs when is_list(Recs) -> + [{TableName, Recs} | Acc]; + _ -> + Acc + end. + +%% format_remote/3 + +format_remote(Tables, SFun, {Replies, BadNodes}) -> + N = lists:foldl(fun(T,A) -> fr(Tables, SFun, T, A) end, + 0, + Replies), + sep(0 == N andalso [] /= BadNodes), + lists:foreach(fun(Node) -> io:format("# no reply from ~p~n", [Node]) end, + BadNodes), + sep([] /= BadNodes), + N. + +fr(Tables, SFun, {List, Node}, Count) + when is_list(List) -> %% guard against {badrpc, Reason} + lists:foldl(fun({T,Recs}, C) -> fr(Tables, SFun, Node, T, Recs,C) end, + Count, + List); +fr(_, _, _, Count) -> + Count. + +fr(Tables, SFun, Node, Table, Recs, Count) -> + Fields = keyfetch(Table, Tables), + sep(), + io:format("# ~p@~p~n", [Table, Node]), + N = format(Recs, Fields, tblsplit(SFun, Table)), + sep(0 == N), + Count + N. + +tblsplit(SFun, Table) + when is_function(SFun, 3) -> + fun(Fs,Vs) -> SFun(Table, Fs, Vs) end; +tblsplit(SFun, _) + when is_function(SFun, 2) -> + SFun. + +%% compact/1 +%% +%% Strip whitespace from both ends of a string. + +compact(Str) -> + compact(Str, true). + +compact([Ch|Rest], B) + when Ch == $\n; + Ch == $ ; + Ch == $\t; + Ch == $\v; + Ch == $\r -> + compact(Rest, B); + +compact(Str, false) -> + Str; + +compact(Str, true) -> + lists:reverse(compact(lists:reverse(Str), false)). |