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|
%% =====================================================================
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2004-2009. 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%
%%
%% Core Erlang prettyprinter, using the 'prettypr' module.
%%
%% Copyright (C) 1999-2002 Richard Carlsson
%%
%% Author contact: [email protected]
%% =====================================================================
%%
%% @doc Core Erlang prettyprinter.
%%
%% <p>This module is a front end to the pretty-printing library module
%% <code>prettypr</code>, for text formatting of Core Erlang abstract
%% syntax trees defined by the module <code>cerl</code>.</p>
%% TODO: add printing of comments for `comment'-annotations?
-module(cerl_prettypr).
-define(NO_UNUSED, true).
-export([format/1, format/2, annotate/3]).
-ifndef(NO_UNUSED).
-export([best/1, best/2, layout/1, layout/2, get_ctxt_paperwidth/1,
set_ctxt_paperwidth/2, get_ctxt_linewidth/1,
set_ctxt_linewidth/2, get_ctxt_hook/1, set_ctxt_hook/2,
get_ctxt_user/1, set_ctxt_user/2]).
-endif.
-import(prettypr, [text/1, nest/2, above/2, beside/2, sep/1, par/1,
par/2, follow/3, follow/2, floating/1, empty/0]).
-import(cerl, [abstract/1, alias_pat/1, alias_var/1, apply_args/1,
apply_op/1, atom_lit/1, binary_segments/1, bitstr_val/1,
bitstr_size/1, bitstr_unit/1, bitstr_type/1,
bitstr_flags/1, call_args/1, call_module/1, call_name/1,
case_arg/1, case_clauses/1, catch_body/1, c_atom/1,
c_binary/1, c_bitstr/5, c_int/1, clause_body/1,
clause_guard/1, clause_pats/1, concrete/1, cons_hd/1,
cons_tl/1, float_lit/1, fun_body/1, fun_vars/1,
get_ann/1, int_lit/1, is_c_cons/1, is_c_let/1,
is_c_nil/1, is_c_seq/1, is_print_string/1, let_arg/1,
let_body/1, let_vars/1, letrec_body/1, letrec_defs/1,
module_attrs/1, module_defs/1, module_exports/1,
module_name/1, primop_args/1, primop_name/1,
receive_action/1, receive_clauses/1, receive_timeout/1,
seq_arg/1, seq_body/1, string_lit/1, try_arg/1,
try_body/1, try_vars/1, try_evars/1, try_handler/1,
tuple_es/1, type/1, values_es/1, var_name/1,
map_es/1, map_pair_assoc_es/1, map_pair_exact_es/1
]).
-define(PAPER, 76).
-define(RIBBON, 45).
-define(NOUSER, undefined).
-define(NOHOOK, none).
-type hook() :: 'none' | fun((cerl:cerl(), _, _) -> prettypr:document()).
-record(ctxt, {line = 0 :: integer(),
body_indent = 4 :: non_neg_integer(),
sub_indent = 2 :: non_neg_integer(),
hook = ?NOHOOK :: hook(),
noann = false :: boolean(),
paper = ?PAPER :: integer(),
ribbon = ?RIBBON :: integer(),
user = ?NOUSER :: term()}).
-type context() :: #ctxt{}.
%% =====================================================================
%% The following functions examine and modify contexts:
%% @spec (context()) -> integer()
%% @doc Returns the paper widh field of the prettyprinter context.
%% @see set_ctxt_paperwidth/2
-ifndef(NO_UNUSED).
get_ctxt_paperwidth(Ctxt) ->
Ctxt#ctxt.paper.
-endif. % NO_UNUSED
%% @clear
%% @spec (context(), integer()) -> context()
%%
%% @doc Updates the paper widh field of the prettyprinter context.
%%
%% <p> Note: changing this value (and passing the resulting context to a
%% continuation function) does not affect the normal formatting, but may
%% affect user-defined behaviour in hook functions.</p>
%%
%% @see get_ctxt_paperwidth/1
-ifndef(NO_UNUSED).
set_ctxt_paperwidth(Ctxt, W) ->
Ctxt#ctxt{paper = W}.
-endif. % NO_UNUSED
%% @clear
%% @spec (context()) -> integer()
%% @doc Returns the line widh field of the prettyprinter context.
%% @see set_ctxt_linewidth/2
-ifndef(NO_UNUSED).
get_ctxt_linewidth(Ctxt) ->
Ctxt#ctxt.ribbon.
-endif. % NO_UNUSED
%% @clear
%% @spec (context(), integer()) -> context()
%%
%% @doc Updates the line widh field of the prettyprinter context.
%%
%% <p> Note: changing this value (and passing the resulting context to a
%% continuation function) does not affect the normal formatting, but may
%% affect user-defined behaviour in hook functions.</p>
%%
%% @see get_ctxt_linewidth/1
-ifndef(NO_UNUSED).
set_ctxt_linewidth(Ctxt, W) ->
Ctxt#ctxt{ribbon = W}.
-endif. % NO_UNUSED
%% @clear
%% @spec (context()) -> hook()
%% @doc Returns the hook function field of the prettyprinter context.
%% @see set_ctxt_hook/2
-ifndef(NO_UNUSED).
get_ctxt_hook(Ctxt) ->
Ctxt#ctxt.hook.
-endif. % NO_UNUSED
%% @clear
%% @spec (context(), hook()) -> context()
%% @doc Updates the hook function field of the prettyprinter context.
%% @see get_ctxt_hook/1
-ifndef(NO_UNUSED).
set_ctxt_hook(Ctxt, Hook) ->
Ctxt#ctxt{hook = Hook}.
-endif. % NO_UNUSED
%% @clear
%% @spec (context()) -> term()
%% @doc Returns the user data field of the prettyprinter context.
%% @see set_ctxt_user/2
-ifndef(NO_UNUSED).
get_ctxt_user(Ctxt) ->
Ctxt#ctxt.user.
-endif. % NO_UNUSED
%% @clear
%% @spec (context(), term()) -> context()
%% @doc Updates the user data field of the prettyprinter context.
%% @see get_ctxt_user/1
-ifndef(NO_UNUSED).
set_ctxt_user(Ctxt, X) ->
Ctxt#ctxt{user = X}.
-endif. % NO_UNUSED
%% @clear
%% =====================================================================
%% @spec format(Tree::cerl()) -> string()
%% @equiv format(Tree, [])
-spec format(cerl:cerl()) -> string().
format(Node) ->
format(Node, []).
%% =====================================================================
%% @spec format(Tree::cerl(), Options::[term()]) -> string()
%% cerl() = cerl:cerl()
%%
%% @type hook() = (cerl(), context(), Continuation) -> document()
%% Continuation = (cerl(), context()) -> document().
%%
%% A call-back function for user-controlled formatting. See <a
%% href="#format-2"><code>format/2</code></a>.
%%
%% @type context(). A representation of the current context of the
%% pretty-printer. Can be accessed in hook functions.
%%
%% @doc Prettyprint-formats a Core Erlang syntax tree as text.
%%
%% <p>Available options:
%% <dl>
%% <dt>{hook, none | <a href="#type-hook">hook()</a>}</dt>
%% <dd>Unless the value is <code>none</code>, the given function
%% is called for every node; see below for details. The default
%% value is <code>none</code>.</dd>
%%
%% <dt>{noann, boolean()}</dt>
%% <dd>If the value is <code>true</code>, annotations on the code
%% are not printed. The default value is <code>false</code>.</dd>
%%
%% <dt>{paper, integer()}</dt>
%% <dd>Specifies the preferred maximum number of characters on any
%% line, including indentation. The default value is 76.</dd>
%%
%% <dt>{ribbon, integer()}</dt>
%% <dd>Specifies the preferred maximum number of characters on any
%% line, not counting indentation. The default value is 45.</dd>
%%
%% <dt>{user, term()}</dt>
%% <dd>User-specific data for use in hook functions. The default
%% value is <code>undefined</code>.</dd>
%% </dl></p>
%%
%% <p>A hook function (cf. the <a
%% href="#type-hook"><code>hook()</code></a> type) is passed the current
%% syntax tree node, the context, and a continuation. The context can be
%% examined and manipulated by functions such as
%% <code>get_ctxt_user/1</code> and <code>set_ctxt_user/2</code>. The
%% hook must return a "document" data structure (see
%% <code>layout/2</code> and <code>best/2</code>); this may be
%% constructed in part or in whole by applying the continuation
%% function. For example, the following is a trivial hook:
%% <pre>
%% fun (Node, Ctxt, Cont) -> Cont(Node, Ctxt) end
%% </pre>
%% which yields the same result as if no hook was given.
%% The following, however:
%% <pre>
%% fun (Node, Ctxt, Cont) ->
%% Doc = Cont(Node, Ctxt),
%% prettypr:beside(prettypr:text("<b>"),
%% prettypr:beside(Doc,
%% prettypr:text("</b>")))
%% end
%% </pre>
%% will place the text of any annotated node (regardless of the
%% annotation data) between HTML "boldface begin" and "boldface end"
%% tags. The function <code>annotate/3</code> is exported for use in
%% hook functions.</p>
%%
%% @see cerl
%% @see format/1
%% @see layout/2
%% @see best/2
%% @see annotate/3
%% @see get_ctxt_user/1
%% @see set_ctxt_user/2
-spec format(cerl:cerl(), [term()]) -> string().
format(Node, Options) ->
W = proplists:get_value(paper, Options, ?PAPER),
L = proplists:get_value(ribbon, Options, ?RIBBON),
prettypr:format(layout(Node, Options), W, L).
%% =====================================================================
%% @spec best(Tree::cerl()) -> empty | document()
%% @equiv best(Node, [])
-ifndef(NO_UNUSED).
best(Node) ->
best(Node, []).
-endif. % NO_UNUSED
%% @clear
%% =====================================================================
%% @spec best(Tree::cerl(), Options::[term()]) ->
%% empty | document()
%%
%% @doc Creates a fixed "best" abstract layout for a Core Erlang syntax
%% tree. This is similar to the <code>layout/2</code> function, except
%% that here, the final layout has been selected with respect to the
%% given options. The atom <code>empty</code> is returned if no such
%% layout could be produced. For information on the options, see the
%% <code>format/2</code> function.
%%
%% @see best/1
%% @see layout/2
%% @see format/2
%% @see prettypr:best/2
-ifndef(NO_UNUSED).
best(Node, Options) ->
W = proplists:get_value(paper, Options, ?PAPER),
L = proplists:get_value(ribbon, Options, ?RIBBON),
prettypr:best(layout(Node, Options), W, L).
-endif. % NO_UNUSED
%% @clear
%% =====================================================================
%% @spec layout(Tree::cerl()) -> document()
%% @equiv layout(Tree, [])
-ifndef(NO_UNUSED).
layout(Node) ->
layout(Node, []).
-endif. % NO_UNUSED
%% @clear
%% =====================================================================
%% @spec annotate(document(), Terms::[term()], context()) -> document()
%%
%% @doc Adds an annotation containing <code>Terms</code> around the
%% given abstract document. This function is exported mainly for use in
%% hook functions; see <code>format/2</code>.
%%
%% @see format/2
-spec annotate(prettypr:document(), [term()], context()) -> prettypr:document().
annotate(Doc, As0, Ctxt) ->
case strip_line(As0) of
[] ->
Doc;
As ->
case Ctxt#ctxt.noann of
false ->
Es = seq(As, floating(text(",")), Ctxt,
fun lay_concrete/2),
follow(beside(floating(text("(")), Doc),
beside(text("-| ["),
beside(par(Es), floating(text("])")))),
Ctxt#ctxt.sub_indent);
true ->
Doc
end
end.
%% =====================================================================
%% @spec layout(Tree::cerl(), Options::[term()]) -> document()
%% document() = prettypr:document()
%%
%% @doc Creates an abstract document layout for a syntax tree. The
%% result represents a set of possible layouts (cf. module
%% <code>prettypr</code>). For information on the options, see
%% <code>format/2</code>; note, however, that the <code>paper</code> and
%% <code>ribbon</code> options are ignored by this function.
%%
%% <p>This function provides a low-level interface to the pretty
%% printer, returning a flexible representation of possible layouts,
%% independent of the paper width eventually to be used for formatting.
%% This can be included as part of another document and/or further
%% processed directly by the functions in the <code>prettypr</code>
%% module, or used in a hook function (see <code>format/2</code> for
%% details).</p>
%%
%% @see prettypr
%% @see format/2
%% @see layout/1
-spec layout(cerl:cerl(), [term()]) -> prettypr:document().
layout(Node, Options) ->
lay(Node,
#ctxt{hook = proplists:get_value(hook, Options, ?NOHOOK),
noann = proplists:get_bool(noann, Options),
paper = proplists:get_value(paper, Options, ?PAPER),
ribbon = proplists:get_value(ribbon, Options, ?RIBBON),
user = proplists:get_value(user, Options)}).
lay(Node, Ctxt) ->
case get_line(get_ann(Node)) of
none ->
lay_0(Node, Ctxt);
Line ->
if Line > Ctxt#ctxt.line ->
Ctxt1 = Ctxt#ctxt{line = Line},
Txt = io_lib:format("% Line ~w",[Line]),
% beside(lay_0(Node, Ctxt1), floating(text(Txt)));
above(floating(text(Txt)), lay_0(Node, Ctxt1));
true ->
lay_0(Node, Ctxt)
end
end.
lay_0(Node, Ctxt) ->
case Ctxt#ctxt.hook of
?NOHOOK ->
lay_ann(Node, Ctxt);
Hook ->
%% If there is a hook, we apply it.
Hook(Node, Ctxt, fun lay_ann/2)
end.
%% This adds an annotation list (if nonempty) around a document, unless
%% the `noann' option is enabled.
lay_ann(Node, Ctxt) ->
Doc = lay_1(Node, Ctxt),
As = get_ann(Node),
annotate(Doc, As, Ctxt).
%% This part ignores annotations:
lay_1(Node, Ctxt) ->
case type(Node) of
literal ->
lay_literal(Node, Ctxt);
var ->
lay_var(Node, Ctxt);
values ->
lay_values(Node, Ctxt);
cons ->
lay_cons(Node, Ctxt);
tuple ->
lay_tuple(Node, Ctxt);
map ->
lay_map(Node, Ctxt);
map_pair_assoc ->
lay_map_pair_assoc(Node, Ctxt);
map_pair_exact ->
lay_map_pair_exact(Node, Ctxt);
'let' ->
lay_let(Node, Ctxt);
seq ->
lay_seq(Node, Ctxt);
apply ->
lay_apply(Node, Ctxt);
call ->
lay_call(Node, Ctxt);
primop ->
lay_primop(Node, Ctxt);
'case' ->
lay_case(Node, Ctxt);
clause ->
lay_clause(Node, Ctxt);
alias ->
lay_alias(Node, Ctxt);
'fun' ->
lay_fun(Node, Ctxt);
'receive' ->
lay_receive(Node, Ctxt);
'try' ->
lay_try(Node, Ctxt);
'catch' ->
lay_catch(Node, Ctxt);
letrec ->
lay_letrec(Node, Ctxt);
module ->
lay_module(Node, Ctxt);
binary ->
lay_binary(Node, Ctxt);
bitstr ->
lay_bitstr(Node, Ctxt)
end.
lay_literal(Node, Ctxt) ->
case concrete(Node) of
V when is_atom(V) ->
text(atom_lit(Node));
V when is_float(V) ->
text(tidy_float(float_lit(Node)));
V when is_integer(V) ->
%% Note that we do not even try to recognize values
%% that could represent printable characters - we
%% always print an integer.
text(int_lit(Node));
V when is_binary(V) ->
lay_binary(c_binary([c_bitstr(abstract(B),
abstract(8),
abstract(1),
abstract(integer),
abstract([unsigned, big]))
|| B <- binary_to_list(V)]),
Ctxt);
[] ->
text("[]");
[_ | _] ->
%% `lay_cons' will check for strings.
lay_cons(Node, Ctxt);
V when is_tuple(V) ->
lay_tuple(Node, Ctxt)
end.
lay_var(Node, Ctxt) ->
%% When formatting variable names, no two names should ever map to
%% the same string. We assume below that an atom representing a
%% variable name either has the character sequence of a proper
%% variable, or otherwise does not need single-quoting.
case var_name(Node) of
V when is_atom(V) ->
S = atom_to_list(V),
case S of
[C | _] when C >= $A, C =< $Z ->
%% Ordinary uppercase-prefixed names are printed
%% just as they are.
text(S);
[C | _] when C >= $\300, C =< $\336, C /= $\327 ->
%% These are also uppercase (ISO 8859-1).
text(S);
[$_| _] ->
%% If the name starts with '_' we keep the name as is.
text(S);
_ ->
%% Plain atom names are prefixed with a single "_".
%% E.g. 'foo' => "_foo".
text([$_ | S])
end;
V when is_integer(V) ->
%% Integers are always simply prefixed with "_";
%% e.g. 4711 => "_4711".
text([$_ | integer_to_list(V)]);
{N, A} when is_atom(N), is_integer(A) ->
%% Function names have no overlap problem.
beside(lay_noann(c_atom(atom_to_list(N)), Ctxt),
beside(text("/"), lay_noann(c_int(A), Ctxt)))
end.
lay_values(Node, Ctxt) ->
lay_value_list(values_es(Node), Ctxt).
lay_cons(Node, Ctxt) ->
case is_print_string(Node) of
true ->
lay_string(string_lit(Node), Ctxt);
false ->
beside(floating(text("[")),
beside(par(lay_list_elements(Node, Ctxt)),
floating(text("]"))))
end.
lay_string(S, Ctxt) ->
%% S includes leading/trailing double-quote characters. The segment
%% width is 2/3 of the ribbon width - this seems to work well.
W = (Ctxt#ctxt.ribbon) * 2 div 3,
lay_string_1(S, length(S), W).
lay_string_1(S, L, W) when L > W, W > 0 ->
%% Note that L is the minimum, not the exact, printed length.
case split_string(S, W - 1, L) of
{_, ""} ->
text(S);
{S1, S2} ->
above(text(S1 ++ "\""),
lay_string_1([$" | S2], L - W + 1, W))
end;
lay_string_1(S, _L, _W) ->
text(S).
split_string(Xs, N, L) ->
split_string_1(Xs, N, L, []).
%% We only split strings at whitespace, if possible. We must make sure
%% we do not split an escape sequence.
split_string_1([$\s | Xs], N, L, As) when N =< 0, L >= 5 ->
{lists:reverse([$\s | As]), Xs};
split_string_1([$\t | Xs], N, L, As) when N =< 0, L >= 5 ->
{lists:reverse([$t, $\\ | As]), Xs};
split_string_1([$\n | Xs], N, L, As) when N =< 0, L >= 5 ->
{lists:reverse([$n, $\\ | As]), Xs};
split_string_1([$\\ | Xs], N, L, As) ->
split_string_2(Xs, N - 1, L - 1, [$\\ | As]);
split_string_1(Xs, N, L, As) when N =< -10, L >= 5 ->
{lists:reverse(As), Xs};
split_string_1([X | Xs], N, L, As) ->
split_string_1(Xs, N - 1, L - 1, [X | As]);
split_string_1([], _N, _L, As) ->
{lists:reverse(As), ""}.
split_string_2([$^, X | Xs], N, L, As) ->
split_string_1(Xs, N - 2, L - 2, [X, $^ | As]);
split_string_2([X1, X2, X3 | Xs], N, L, As) when
X1 >= $0, X1 =< $7, X2 >= $0, X2 =< $7, X3 >= $0, X3 =< $7 ->
split_string_1(Xs, N - 3, L - 3, [X3, X2, X1 | As]);
split_string_2([X1, X2 | Xs], N, L, As) when
X1 >= $0, X1 =< $7, X2 >= $0, X2 =< $7 ->
split_string_1(Xs, N - 2, L - 2, [X2, X1 | As]);
split_string_2([X | Xs], N, L, As) ->
split_string_1(Xs, N - 1, L - 1, [X | As]).
lay_tuple(Node, Ctxt) ->
beside(floating(text("{")),
beside(par(seq(tuple_es(Node), floating(text(",")),
Ctxt, fun lay/2)),
floating(text("}")))).
lay_map(Node, Ctxt) ->
beside(floating(text("~{")),
beside(par(seq(map_es(Node), floating(text(",")),
Ctxt, fun lay/2)),
floating(text("}~")))).
lay_map_pair_assoc(Node, Ctxt) ->
[K,V] = map_pair_assoc_es(Node),
beside(floating(text("::<")),
beside(lay(K,Ctxt),beside(floating(text(",")), beside(lay(V,Ctxt),
floating(text(">")))))).
lay_map_pair_exact(Node, Ctxt) ->
[K,V] = map_pair_exact_es(Node),
beside(floating(text("~<")),
beside(lay(K,Ctxt),beside(floating(text(",")), beside(lay(V,Ctxt),
floating(text(">")))))).
lay_let(Node, Ctxt) ->
V = lay_value_list(let_vars(Node), Ctxt),
D1 = par([follow(text("let"),
beside(V, floating(text(" ="))),
Ctxt#ctxt.sub_indent),
lay(let_arg(Node), Ctxt)],
Ctxt#ctxt.body_indent),
B = let_body(Node),
D2 = lay(B, Ctxt),
case is_c_let(B) of
true ->
sep([beside(D1, floating(text(" in"))), D2]);
false ->
sep([D1, beside(text("in "), D2)])
end.
lay_seq(Node, Ctxt) ->
D1 = beside(text("do "), lay(seq_arg(Node), Ctxt)),
B = seq_body(Node),
D2 = lay(B, Ctxt),
case is_c_seq(B) of
true ->
sep([D1, D2]);
false ->
sep([D1, nest(3, D2)])
end.
lay_apply(Node, Ctxt) ->
As = seq(apply_args(Node), floating(text(",")), Ctxt,
fun lay/2),
beside(follow(text("apply"), lay(apply_op(Node), Ctxt)),
beside(text("("),
beside(par(As), floating(text(")"))))).
lay_call(Node, Ctxt) ->
As = seq(call_args(Node), floating(text(",")), Ctxt,
fun lay/2),
beside(follow(text("call"),
beside(beside(lay(call_module(Node), Ctxt),
floating(text(":"))),
lay(call_name(Node), Ctxt)),
Ctxt#ctxt.sub_indent),
beside(text("("), beside(par(As),
floating(text(")"))))).
lay_primop(Node, Ctxt) ->
As = seq(primop_args(Node), floating(text(",")), Ctxt,
fun lay/2),
beside(follow(text("primop"),
lay(primop_name(Node), Ctxt),
Ctxt#ctxt.sub_indent),
beside(text("("), beside(par(As),
floating(text(")"))))).
lay_case(Node, Ctxt) ->
Cs = seq(case_clauses(Node), none, Ctxt, fun lay/2),
sep([par([follow(text("case"),
lay(case_arg(Node), Ctxt),
Ctxt#ctxt.sub_indent),
text("of")],
Ctxt#ctxt.sub_indent),
nest(Ctxt#ctxt.sub_indent,
vertical(Cs)),
text("end")]).
lay_clause(Node, Ctxt) ->
P = lay_value_list(clause_pats(Node), Ctxt),
G = lay(clause_guard(Node), Ctxt),
H = par([P, follow(follow(text("when"), G,
Ctxt#ctxt.sub_indent),
floating(text("->")))],
Ctxt#ctxt.sub_indent),
par([H, lay(clause_body(Node), Ctxt)],
Ctxt#ctxt.body_indent).
lay_alias(Node, Ctxt) ->
follow(beside(lay(alias_var(Node), Ctxt),
text(" =")),
lay(alias_pat(Node), Ctxt),
Ctxt#ctxt.body_indent).
lay_fun(Node, Ctxt) ->
Vs = seq(fun_vars(Node), floating(text(",")),
Ctxt, fun lay/2),
par([follow(text("fun"),
beside(text("("),
beside(par(Vs),
floating(text(") ->")))),
Ctxt#ctxt.sub_indent),
lay(fun_body(Node), Ctxt)],
Ctxt#ctxt.body_indent).
lay_receive(Node, Ctxt) ->
Cs = seq(receive_clauses(Node), none, Ctxt, fun lay/2),
sep([text("receive"),
nest(Ctxt#ctxt.sub_indent, vertical(Cs)),
sep([follow(text("after"),
beside(lay(receive_timeout(Node), Ctxt),
floating(text(" ->"))),
Ctxt#ctxt.sub_indent),
nest(Ctxt#ctxt.sub_indent,
lay(receive_action(Node), Ctxt))])]).
lay_try(Node, Ctxt) ->
Vs = lay_value_list(try_vars(Node), Ctxt),
Evs = lay_value_list(try_evars(Node), Ctxt),
sep([follow(text("try"),
lay(try_arg(Node), Ctxt),
Ctxt#ctxt.body_indent),
follow(beside(beside(text("of "), Vs),
floating(text(" ->"))),
lay(try_body(Node), Ctxt),
Ctxt#ctxt.body_indent),
follow(beside(beside(text("catch "), Evs),
floating(text(" ->"))),
lay(try_handler(Node), Ctxt),
Ctxt#ctxt.body_indent)]).
lay_catch(Node, Ctxt) ->
follow(text("catch"),
lay(catch_body(Node), Ctxt),
Ctxt#ctxt.sub_indent).
lay_letrec(Node, Ctxt) ->
Es = seq(letrec_defs(Node), none, Ctxt, fun lay_fdef/2),
sep([text("letrec"),
nest(Ctxt#ctxt.sub_indent, vertical(Es)),
beside(text("in "), lay(letrec_body(Node), Ctxt))]).
lay_module(Node, Ctxt) ->
%% Note that the module name, exports and attributes may not
%% be annotated in the printed format.
Xs = seq(module_exports(Node), floating(text(",")), Ctxt,
fun lay_noann/2),
As = seq(module_attrs(Node), floating(text(",")), Ctxt,
fun lay_attrdef/2),
Es = seq(module_defs(Node), none, Ctxt, fun lay_fdef/2),
sep([follow(text("module"),
follow(lay_noann(module_name(Node), Ctxt),
beside(beside(text("["), par(Xs)),
floating(text("]")))),
Ctxt#ctxt.sub_indent),
nest(Ctxt#ctxt.sub_indent,
follow(text("attributes"),
beside(beside(text("["), par(As)),
floating(text("]"))),
Ctxt#ctxt.sub_indent)),
nest(Ctxt#ctxt.sub_indent, vertical(Es)),
text("end")]).
lay_binary(Node, Ctxt) ->
beside(floating(text("#{")),
beside(sep(seq(binary_segments(Node), floating(text(",")),
Ctxt, fun lay_bitstr/2)),
floating(text("}#")))).
lay_bitstr(Node, Ctxt) ->
Head = beside(floating(text("#<")),
beside(lay(bitstr_val(Node), Ctxt),
floating(text(">")))),
As = [bitstr_size(Node),
bitstr_unit(Node),
bitstr_type(Node),
bitstr_flags(Node)],
beside(Head, beside(floating(text("(")),
beside(sep(seq(As, floating(text(",")),
Ctxt, fun lay/2)),
floating(text(")"))))).
%% In all places where "<...>"-sequences can occur, it is OK to
%% write 1-element sequences without the "<" and ">".
lay_value_list([E], Ctxt) ->
lay(E, Ctxt);
lay_value_list(Es, Ctxt) ->
beside(floating(text("<")),
beside(par(seq(Es, floating(text(",")),
Ctxt, fun lay/2)),
floating(text(">")))).
lay_noann(Node, Ctxt) ->
lay(Node, Ctxt#ctxt{noann = true}).
lay_concrete(T, Ctxt) ->
lay(abstract(T), Ctxt).
lay_attrdef({K, V}, Ctxt) ->
follow(beside(lay_noann(K, Ctxt), floating(text(" ="))),
lay_noann(V, Ctxt),
Ctxt#ctxt.body_indent).
lay_fdef({N, F}, Ctxt) ->
par([beside(lay(N, Ctxt), floating(text(" ="))),
lay(F, Ctxt)],
Ctxt#ctxt.body_indent).
lay_list_elements(Node, Ctxt) ->
T = cons_tl(Node),
A = case Ctxt#ctxt.noann of
false ->
get_ann(T);
true ->
[]
end,
H = lay(cons_hd(Node), Ctxt),
case is_c_cons(T) of
true when A =:= [] ->
[beside(H, floating(text(",")))
| lay_list_elements(T, Ctxt)];
_ ->
case is_c_nil(T) of
true when A =:= [] ->
[H];
_ ->
[H, beside(floating(text("| ")),
lay(T, Ctxt))]
end
end.
seq([H | T], Separator, Ctxt, Fun) ->
case T of
[] ->
[Fun(H, Ctxt)];
_ ->
[maybe_append(Separator, Fun(H, Ctxt))
| seq(T, Separator, Ctxt, Fun)]
end;
seq([], _, _, _) ->
[empty()].
maybe_append(none, D) ->
D;
maybe_append(Suffix, D) ->
beside(D, Suffix).
vertical([D]) ->
D;
vertical([D | Ds]) ->
above(D, vertical(Ds));
vertical([]) ->
[].
% horizontal([D]) ->
% D;
% horizontal([D | Ds]) ->
% beside(D, horizontal(Ds));
% horizontal([]) ->
% [].
tidy_float([$., C | Cs]) ->
[$., C | tidy_float_1(Cs)]; % preserve first decimal digit
tidy_float([$e | _] = Cs) ->
tidy_float_2(Cs);
tidy_float([C | Cs]) ->
[C | tidy_float(Cs)];
tidy_float([]) ->
[].
tidy_float_1([$0, $0, $0 | Cs]) ->
tidy_float_2(Cs); % cut mantissa at three consecutive zeros.
tidy_float_1([$e | _] = Cs) ->
tidy_float_2(Cs);
tidy_float_1([C | Cs]) ->
[C | tidy_float_1(Cs)];
tidy_float_1([]) ->
[].
tidy_float_2([$e, $+, $0]) -> [];
tidy_float_2([$e, $+, $0 | Cs]) -> tidy_float_2([$e, $+ | Cs]);
tidy_float_2([$e, $+ | _] = Cs) -> Cs;
tidy_float_2([$e, $-, $0]) -> [];
tidy_float_2([$e, $-, $0 | Cs]) -> tidy_float_2([$e, $- | Cs]);
tidy_float_2([$e, $- | _] = Cs) -> Cs;
tidy_float_2([$e | Cs]) -> tidy_float_2([$e, $+ | Cs]);
tidy_float_2([_ | Cs]) -> tidy_float_2(Cs);
tidy_float_2([]) -> [].
get_line([L | _As]) when is_integer(L) ->
L;
get_line([_ | As]) ->
get_line(As);
get_line([]) ->
none.
strip_line([A | As]) when is_integer(A) ->
strip_line(As);
strip_line([A | As]) ->
[A | strip_line(As)];
strip_line([]) ->
[].
%% =====================================================================
|