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%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2009. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
%%
%% usage: pretty_format:term(Term) -> PNF list of characters
%%
%% Note: this is usually used in expressions like:
%% io:format('~s\n',[pretty_format:term(Term)]).
%%
%% Uses the following simple heuristics
%%
%% 1) Simple tuples are printed across the page
%% (Simple means *all* the elements are "flat")
%% 2) The Complex tuple {Arg1, Arg2, Arg3,....} is printed thus:
%% {Arg1,
%% Arg2,
%% Arg3,
%% ...}
%% 3) Lists are treated as for tuples
%% 4) Lists of printable characters are treated as strings
%%
%% This method seems to work reasonable well for {Tag, ...} type
%% data structures
-module(asn1ct_pretty_format).
-export([term/1]).
-import(io_lib, [write/1, write_string/1]).
term(Term) ->
element(2, term(Term, 0)).
%%______________________________________________________________________
%% pretty_format:term(Term, Indent} -> {Indent', Chars}
%% Format <Term> -- use <Indent> to indent the *next* line
%% Note: Indent' is a new indentaion level (sometimes printing <Term>
%% the next line to need an "extra" indent!).
term([], Indent) ->
{Indent, [$[,$]]};
term(L, Indent) when is_list(L) ->
case is_string(L) of
true ->
{Indent, write_string(L)};
false ->
case complex_list(L) of
true ->
write_complex_list(L, Indent);
false ->
write_simple_list(L, Indent)
end
end;
term(T, Indent) when is_tuple(T) ->
case complex_tuple(T) of
true ->
write_complex_tuple(T, Indent);
false ->
write_simple_tuple(T, Indent)
end;
term(A, Indent) ->
{Indent, write(A)}.
%%______________________________________________________________________
%% write_simple_list([H|T], Indent) -> {Indent', Chars}
write_simple_list([H|T], Indent) ->
{_, S1} = term(H, Indent),
{_, S2} = write_simple_list_tail(T, Indent),
{Indent, [$[,S1|S2]}.
write_simple_list_tail([H|T], Indent) ->
{_, S1} = term(H, Indent),
{_, S2} = write_simple_list_tail(T, Indent),
{Indent, [$,,S1| S2]};
write_simple_list_tail([], Indent) ->
{Indent, "]"};
write_simple_list_tail(Other, Indent) ->
{_, S} = term(Other, Indent),
{Indent, [$|,S,$]]}.
%%______________________________________________________________________
%% write_complex_list([H|T], Indent) -> {Indent', Chars}
write_complex_list([H|T], Indent) ->
{I1, S1} = term(H, Indent+1),
{_, S2} = write_complex_list_tail(T, I1),
{Indent, [$[,S1|S2]}.
write_complex_list_tail([H|T], Indent) ->
{I1, S1} = term(H, Indent),
{_, S2} = write_complex_list_tail(T, I1),
{Indent, [$,,nl_indent(Indent),S1,S2]};
write_complex_list_tail([], Indent) ->
{Indent, "]"};
write_complex_list_tail(Other, Indent) ->
{_, S} = term(Other, Indent),
{Indent, [$|,S,$]]}.
%%______________________________________________________________________
%% complex_list(List) -> true | false
%% returns true if the list is complex otherwise false
complex_list([]) ->
false;
complex_list([H|T]) when is_list(H) =:= false , is_tuple(H) =:= false ->
complex_list(T);
complex_list([H|T]) ->
case is_string(H) of
true ->
complex_list(T);
false ->
true
end;
complex_list(_) -> true.
%%______________________________________________________________________
%% complex_tuple(Tuple) -> true | false
%% returns true if the tuple is complex otherwise false
complex_tuple(T) ->
complex_list(tuple_to_list(T)).
%%______________________________________________________________________
%% write_simple_tuple(Tuple, Indent} -> {Indent', Chars}
write_simple_tuple({}, Indent) ->
{Indent, "{}"};
write_simple_tuple(Tuple, Indent) ->
{_, S} = write_simple_tuple_args(tuple_to_list(Tuple), Indent),
{Indent, [${, S, $}]}.
write_simple_tuple_args([X], Indent) ->
term(X, Indent);
write_simple_tuple_args([H|T], Indent) ->
{_, SH} = term(H, Indent),
{_, ST} = write_simple_tuple_args(T, Indent),
{Indent, [SH, $,, ST]}.
%%______________________________________________________________________
%% write_complex_tuple(Tuple, Indent} -> {Indent', Chars}
write_complex_tuple(Tuple, Indent) ->
[H|T] = tuple_to_list(Tuple),
{I1, SH} = term(H, Indent+2),
{_, ST} = write_complex_tuple_args(T, I1),
{Indent, [${, SH, ST, $}]}.
write_complex_tuple_args([X], Indent) ->
{_, S} = term(X, Indent),
{Indent, [$,, nl_indent(Indent), S]};
write_complex_tuple_args([H|T], Indent) ->
{I1, SH} = term(H, Indent),
{_, ST} = write_complex_tuple_args(T, I1),
{Indent, [$,, nl_indent(Indent) , SH, ST]};
write_complex_tuple_args([], Indent) ->
{Indent, []}.
%%______________________________________________________________________
%% utilities
nl_indent(I) when I >= 0 ->
["\n"|indent(I)];
nl_indent(_) ->
[$\s].
indent(I) when I >= 8 ->
[$\t|indent(I-8)];
indent(I) when I > 0 ->
[$\s|indent(I-1)];
indent(_) ->
[].
is_string([9|T]) ->
is_string(T);
is_string([10|T]) ->
is_string(T);
is_string([H|T]) when H >31, H < 127 ->
is_string(T);
is_string([]) ->
true;
is_string(_) ->
false.
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