%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2005-2009. 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(edlin_expand). %% a default expand function for edlin, expanding modules and functions -export([expand/1, format_matches/1]). -import(lists, [reverse/1, nthtail/2, prefix/2]). %% expand(CurrentBefore) -> %% {yes, Expansion, Matches} | {no, Matches} %% Try to expand the word before as either a module name or a function %% name. We can handle white space around the seperating ':' but the %% function name must be on the same line. CurrentBefore is reversed %% and over_word/3 reverses the characters it finds. In certain cases %% possible expansions are printed. expand(Bef0) -> {Bef1,Word,_} = edlin:over_word(Bef0, [], 0), case over_white(Bef1, [], 0) of {[$:|Bef2],_White,_Nwh} -> {Bef3,_White1,_Nwh1} = over_white(Bef2, [], 0), {_,Mod,_Nm} = edlin:over_word(Bef3, [], 0), expand_function_name(Mod, Word); {_,_,_} -> expand_module_name(Word) end. expand_module_name(Prefix) -> match(Prefix, code:all_loaded(), ":"). expand_function_name(ModStr, FuncPrefix) -> Mod = list_to_atom(ModStr), case erlang:module_loaded(Mod) of true -> L = Mod:module_info(), case lists:keyfind(exports, 1, L) of {_, Exports} -> match(FuncPrefix, Exports, "("); _ -> {no, [], []} end; false -> {no, [], []} end. match(Prefix, Alts, Extra) -> Len = length(Prefix), Matches = [{S, A} || {H, A} <- Alts, prefix(Prefix, S=atom_to_list(H))], case longest_common_head([N || {N, _} <- Matches]) of {partial, []} -> {no, [], Matches}; % format_matches(Matches)}; {partial, Str} -> case nthtail(Len, Str) of [] -> {yes, [], Matches}; % format_matches(Matches)}; Remain -> {yes, Remain, []} end; {complete, Str} -> {yes, nthtail(Len, Str) ++ Extra, []}; no -> {no, [], []} end. %% Return the list of names L in multiple columns. format_matches(L) -> S = format_col(lists:sort(L), []), ["\n" | S]. format_col([], _) -> []; format_col(L, Acc) -> format_col(L, field_width(L), 0, Acc). format_col(X, Width, Len, Acc) when Width + Len > 79 -> format_col(X, Width, 0, ["\n" | Acc]); format_col([A|T], Width, Len, Acc0) -> H = case A of %% If it's a tuple {string(), integer()}, we assume it's an %% arity, and meant to be printed. {H0, I} when is_integer(I) -> H0 ++ "/" ++ integer_to_list(I); {H1, _} -> H1; H2 -> H2 end, Acc = [io_lib:format("~-*s", [Width,H]) | Acc0], format_col(T, Width, Len+Width, Acc); format_col([], _, _, Acc) -> lists:reverse(Acc, "\n"). field_width(L) -> field_width(L, 0). field_width([{H,_}|T], W) -> case length(H) of L when L > W -> field_width(T, L); _ -> field_width(T, W) end; field_width([H|T], W) -> case length(H) of L when L > W -> field_width(T, L); _ -> field_width(T, W) end; field_width([], W) when W < 40 -> W + 4; field_width([], _) -> 40. longest_common_head([]) -> no; longest_common_head(LL) -> longest_common_head(LL, []). longest_common_head([[]|_], L) -> {partial, reverse(L)}; longest_common_head(LL, L) -> case same_head(LL) of true -> [[H|_]|_] = LL, LL1 = all_tails(LL), case all_nil(LL1) of false -> longest_common_head(LL1, [H|L]); true -> {complete, reverse([H|L])} end; false -> {partial, reverse(L)} end. same_head([[H|_]|T1]) -> same_head(H, T1). same_head(H, [[H|_]|T]) -> same_head(H, T); same_head(_, []) -> true; same_head(_, _) -> false. all_tails(LL) -> all_tails(LL, []). all_tails([[_|T]|T1], L) -> all_tails(T1, [T|L]); all_tails([], L) -> L. all_nil([]) -> true; all_nil([[] | Rest]) -> all_nil(Rest); all_nil(_) -> false. %% over_white(Chars, InitialStack, InitialCount) -> %% {RemainingChars,CharStack,Count}. over_white([$\s|Cs], Stack, N) -> over_white(Cs, [$\s|Stack], N+1); over_white([$\t|Cs], Stack, N) -> over_white(Cs, [$\t|Stack], N+1); over_white(Cs, Stack, N) when is_list(Cs) -> {Cs,Stack,N}.