diff options
Diffstat (limited to 'lib/stdlib/src/erl_pp.erl')
-rw-r--r-- | lib/stdlib/src/erl_pp.erl | 757 |
1 files changed, 399 insertions, 358 deletions
diff --git a/lib/stdlib/src/erl_pp.erl b/lib/stdlib/src/erl_pp.erl index 6b5aa951cf..a868867a81 100644 --- a/lib/stdlib/src/erl_pp.erl +++ b/lib/stdlib/src/erl_pp.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1996-2011. All Rights Reserved. +%% Copyright Ericsson AB 1996-2013. 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 @@ -26,7 +26,7 @@ guard/1,guard/2,exprs/1,exprs/2,exprs/3,expr/1,expr/2,expr/3,expr/4]). -import(lists, [append/1,foldr/3,mapfoldl/3,reverse/1,reverse/2]). --import(io_lib, [write/1,format/2,write_char/1,write_string/1]). +-import(io_lib, [write/1,format/2]). -import(erl_parse, [inop_prec/1,preop_prec/1,func_prec/0,max_prec/0]). -define(MAXLINE, 72). @@ -36,7 +36,15 @@ CurrentIndentation :: integer(), CurrentPrecedence :: non_neg_integer(), HookFunction :: hook_function()) -> - io_lib:chars())). + io_lib:chars())). + +-type(option() :: {hook, hook_function()} + | {encoding, latin1 | unicode | utf8}). +-type(options() :: hook_function() | [option()]). + +-record(pp, {string_fun, char_fun}). + +-record(options, {hook, encoding, opts}). %%% %%% Exported functions @@ -48,12 +56,12 @@ form(Thing) -> form(Thing, none). --spec(form(Form, HookFunction) -> io_lib:chars() when +-spec(form(Form, Options) -> io_lib:chars() when Form :: erl_parse:abstract_form(), - HookFunction :: hook_function()). + Options :: options()). -form(Thing, Hook) -> - frmt(lform(Thing, Hook)). +form(Thing, Options) -> + frmt(lform(Thing, options(Options)), state(Options)). -spec(attribute(Attribute) -> io_lib:chars() when Attribute :: erl_parse:abstract_form()). @@ -61,12 +69,12 @@ form(Thing, Hook) -> attribute(Thing) -> attribute(Thing, none). --spec(attribute(Attribute, HookFunction) -> io_lib:chars() when +-spec(attribute(Attribute, Options) -> io_lib:chars() when Attribute :: erl_parse:abstract_form(), - HookFunction :: hook_function()). + Options :: options()). -attribute(Thing, Hook) -> - frmt(lattribute(Thing, Hook)). +attribute(Thing, Options) -> + frmt(lattribute(Thing, options(Options)), state(Options)). -spec(function(Function) -> io_lib:chars() when Function :: erl_parse:abstract_form()). @@ -74,18 +82,18 @@ attribute(Thing, Hook) -> function(F) -> function(F, none). --spec(function(Function, HookFunction) -> io_lib:chars() when +-spec(function(Function, Options) -> io_lib:chars() when Function :: erl_parse:abstract_form(), - HookFunction :: hook_function()). + Options :: options()). -function(F, Hook) -> - frmt(lfunction(F, Hook)). +function(F, Options) -> + frmt(lfunction(F, options(Options)), state(Options)). rule(R) -> rule(R, none). -rule(R, Hook) -> - frmt(lrule(R, Hook)). +rule(R, Options) -> + frmt(lrule(R, options(Options)), state(Options)). -spec(guard(Guard) -> io_lib:chars() when Guard :: [erl_parse:abstract_expr()]). @@ -93,12 +101,12 @@ rule(R, Hook) -> guard(Gs) -> guard(Gs, none). --spec(guard(Guard, HookFunction) -> io_lib:chars() when +-spec(guard(Guard, Options) -> io_lib:chars() when Guard :: [erl_parse:abstract_expr()], - HookFunction :: hook_function()). + Options :: options()). -guard(Gs, Hook) -> - frmt(lguard(Gs, Hook)). +guard(Gs, Options) -> + frmt(lguard(Gs, options(Options)), state(Options)). -spec(exprs(Expressions) -> io_lib:chars() when Expressions :: [erl_parse:abstract_expr()]). @@ -106,99 +114,129 @@ guard(Gs, Hook) -> exprs(Es) -> exprs(Es, 0, none). --spec(exprs(Expressions, HookFunction) -> io_lib:chars() when +-spec(exprs(Expressions, Options) -> io_lib:chars() when Expressions :: [erl_parse:abstract_expr()], - HookFunction :: hook_function()). + Options :: options()). -exprs(Es, Hook) -> - exprs(Es, 0, Hook). +exprs(Es, Options) -> + exprs(Es, 0, Options). --spec(exprs(Expressions, Indent, HookFunction) -> io_lib:chars() when +-spec(exprs(Expressions, Indent, Options) -> io_lib:chars() when Expressions :: [erl_parse:abstract_expr()], Indent :: integer(), - HookFunction :: hook_function()). + Options :: options()). -exprs(Es, I, Hook) -> - frmt({seq,[],[],[$,],lexprs(Es, Hook)}, I). +exprs(Es, I, Options) -> + frmt({seq,[],[],[$,],lexprs(Es, options(Options))}, I, state(Options)). -spec(expr(Expression) -> io_lib:chars() when Expression :: erl_parse:abstract_expr()). expr(E) -> - frmt(lexpr(E, 0, none)). + frmt(lexpr(E, 0, options(none)), state(none)). --spec(expr(Expression, HookFunction) -> io_lib:chars() when +-spec(expr(Expression, Options) -> io_lib:chars() when Expression :: erl_parse:abstract_expr(), - HookFunction :: hook_function()). + Options :: options()). -expr(E, Hook) -> - frmt(lexpr(E, 0, Hook)). +expr(E, Options) -> + frmt(lexpr(E, 0, options(Options)), state(Options)). --spec(expr(Expression, Indent, HookFunction) -> io_lib:chars() when +-spec(expr(Expression, Indent, Options) -> io_lib:chars() when Expression :: erl_parse:abstract_expr(), Indent :: integer(), - HookFunction :: hook_function()). + Options :: options()). -expr(E, I, Hook) -> - frmt(lexpr(E, 0, Hook), I). +expr(E, I, Options) -> + frmt(lexpr(E, 0, options(Options)), I, state(Options)). --spec(expr(Expression, Indent, Precedence, HookFunction) -> io_lib:chars() when +-spec(expr(Expression, Indent, Precedence, Options) -> io_lib:chars() when Expression :: erl_parse:abstract_expr(), Indent :: integer(), Precedence :: non_neg_integer(), - HookFunction :: hook_function()). + Options :: options()). -expr(E, I, P, Hook) -> - frmt(lexpr(E, P, Hook), I). +expr(E, I, P, Options) -> + frmt(lexpr(E, P, options(Options)), I, state(Options)). %%% %%% Local functions %%% -lform({attribute,Line,Name,Arg}, Hook) -> - lattribute({attribute,Line,Name,Arg}, Hook); -lform({function,Line,Name,Arity,Clauses}, Hook) -> - lfunction({function,Line,Name,Arity,Clauses}, Hook); -lform({rule,Line,Name,Arity,Clauses}, Hook) -> - lrule({rule,Line,Name,Arity,Clauses}, Hook); +options(Options) when is_list(Options) -> + Hook = proplists:get_value(hook, Options, none), + Encoding = encoding(Options), + #options{hook = Hook, encoding = Encoding, opts = Options}; +options(Hook) -> + #options{hook = Hook, encoding = encoding([]), opts = Hook}. + +state(Options) when is_list(Options) -> + case encoding(Options) of + latin1 -> state(); + unicode -> unicode_state() + end; +state(_Hook) -> + state(). + +state() -> + #pp{string_fun = fun io_lib:write_string_as_latin1/1, + char_fun = fun io_lib:write_char_as_latin1/1}. + +unicode_state() -> + #pp{string_fun = fun io_lib:write_string/1, + char_fun = fun io_lib:write_char/1}. + +encoding(Options) -> + case proplists:get_value(encoding, Options, epp:default_encoding()) of + latin1 -> latin1; + utf8 -> unicode; + unicode -> unicode + end. + +lform({attribute,Line,Name,Arg}, Opts) -> + lattribute({attribute,Line,Name,Arg}, Opts); +lform({function,Line,Name,Arity,Clauses}, Opts) -> + lfunction({function,Line,Name,Arity,Clauses}, Opts); +lform({rule,Line,Name,Arity,Clauses}, Opts) -> + lrule({rule,Line,Name,Arity,Clauses}, Opts); %% These are specials to make it easier for the compiler. -lform({error,E}, _Hook) -> +lform({error,E}, _Opts) -> leaf(format("~p\n", [{error,E}])); -lform({warning,W}, _Hook) -> +lform({warning,W}, _Opts) -> leaf(format("~p\n", [{warning,W}])); -lform({eof,_Line}, _Hook) -> +lform({eof,_Line}, _Opts) -> $\n. -lattribute({attribute,_Line,type,Type}, Hook) -> - [typeattr(type, Type, Hook),leaf(".\n")]; -lattribute({attribute,_Line,opaque,Type}, Hook) -> - [typeattr(opaque, Type, Hook),leaf(".\n")]; -lattribute({attribute,_Line,spec,Arg}, _Hook) -> +lattribute({attribute,_Line,type,Type}, Opts) -> + [typeattr(type, Type, Opts),leaf(".\n")]; +lattribute({attribute,_Line,opaque,Type}, Opts) -> + [typeattr(opaque, Type, Opts),leaf(".\n")]; +lattribute({attribute,_Line,spec,Arg}, _Opts) -> [specattr(Arg),leaf(".\n")]; -lattribute({attribute,_Line,Name,Arg}, Hook) -> - [lattribute(Name, Arg, Hook),leaf(".\n")]. +lattribute({attribute,_Line,Name,Arg}, Opts) -> + [lattribute(Name, Arg, Opts),leaf(".\n")]. -lattribute(module, {M,Vs}, _Hook) -> +lattribute(module, {M,Vs}, _Opts) -> attr("module",[{var,0,pname(M)}, foldr(fun(V, C) -> {cons,0,{var,0,V},C} end, {nil,0}, Vs)]); -lattribute(module, M, _Hook) -> +lattribute(module, M, _Opts) -> attr("module", [{var,0,pname(M)}]); -lattribute(export, Falist, _Hook) -> +lattribute(export, Falist, _Opts) -> call({var,0,"-export"}, [falist(Falist)], 0, none); -lattribute(import, Name, _Hook) when is_list(Name) -> +lattribute(import, Name, _Opts) when is_list(Name) -> attr("import", [{var,0,pname(Name)}]); -lattribute(import, {From,Falist}, _Hook) -> +lattribute(import, {From,Falist}, _Opts) -> attr("import",[{var,0,pname(From)},falist(Falist)]); -lattribute(file, {Name,Line}, _Hook) -> +lattribute(file, {Name,Line}, _Opts) -> attr("file", [{var,0,format("~p", [Name])},{integer,0,Line}]); -lattribute(record, {Name,Is}, Hook) -> +lattribute(record, {Name,Is}, Opts) -> Nl = leaf(format("-record(~w,", [Name])), - [{first,Nl,record_fields(Is, Hook)},$)]; -lattribute(Name, Arg, _Hook) -> - attr(write(Name), [erl_parse:abstract(Arg)]). + [{first,Nl,record_fields(Is, Opts)},$)]; +lattribute(Name, Arg, #options{encoding = Encoding}) -> + attr(write(Name), [erl_parse:abstract(Arg, [{encoding,Encoding}])]). -typeattr(Tag, {TypeName,Type,Args}, _Hook) -> +typeattr(Tag, {TypeName,Type,Args}, _Opts) -> {first,leaf("-"++atom_to_list(Tag)++" "), typed(call({atom,0,TypeName}, Args, 0, none), Type)}. @@ -293,7 +331,7 @@ guard_type(Before, Gs) -> Gl = {list,[{step,'when',expr_list(Gs, [$,], fun constraint/2, none)}]}, {list,[{step,Before,Gl}]}. -constraint({type,_Line,constraint,[Tag,As]}, _Hook) -> +constraint({type,_Line,constraint,[Tag,As]}, _Opts) -> simple_type(Tag, As). fun_type(Before, {type,_,'fun',[FType,Ret]}) -> @@ -333,231 +371,230 @@ falist([]) -> falist([{Name,Arity}|Falist]) -> {cons,0,{var,0,format("~w/~w", [Name,Arity])},falist(Falist)}. -lfunction({function,_Line,Name,_Arity,Cs}, Hook) -> - Cll = nl_clauses(fun (C, H) -> func_clause(Name, C, H) end, $;, Hook, Cs), +lfunction({function,_Line,Name,_Arity,Cs}, Opts) -> + Cll = nl_clauses(fun (C, H) -> func_clause(Name, C, H) end, $;, Opts, Cs), [Cll,leaf(".\n")]. -func_clause(Name, {clause,Line,Head,Guard,Body}, Hook) -> - Hl = call({atom,Line,Name}, Head, 0, Hook), - Gl = guard_when(Hl, Guard, Hook), - Bl = body(Body, Hook), +func_clause(Name, {clause,Line,Head,Guard,Body}, Opts) -> + Hl = call({atom,Line,Name}, Head, 0, Opts), + Gl = guard_when(Hl, Guard, Opts), + Bl = body(Body, Opts), {step,Gl,Bl}. -lrule({rule,_Line,Name,_Arity,Cs}, Hook) -> - Cll = nl_clauses(fun (C, H) -> rule_clause(Name, C, H) end, $;, Hook, Cs), +lrule({rule,_Line,Name,_Arity,Cs}, Opts) -> + Cll = nl_clauses(fun (C, H) -> rule_clause(Name, C, H) end, $;, Opts, Cs), [Cll,leaf(".\n")]. -rule_clause(Name, {clause,Line,Head,Guard,Body}, Hook) -> - Hl = call({atom,Line,Name}, Head, 0, Hook), - Gl = guard_when(Hl, Guard, Hook, leaf(" :-")), - Bl = rule_body(Body, Hook), +rule_clause(Name, {clause,Line,Head,Guard,Body}, Opts) -> + Hl = call({atom,Line,Name}, Head, 0, Opts), + Gl = guard_when(Hl, Guard, Opts, leaf(" :-")), + Bl = rule_body(Body, Opts), {step,Gl,Bl}. -rule_body(Es, Hook) -> - lc_quals(Es, Hook). +rule_body(Es, Opts) -> + lc_quals(Es, Opts). -guard_when(Before, Guard, Hook) -> - guard_when(Before, Guard, Hook, ' ->'). +guard_when(Before, Guard, Opts) -> + guard_when(Before, Guard, Opts, ' ->'). -guard_when(Before, Guard, Hook, After) -> - Gl = lguard(Guard, Hook), +guard_when(Before, Guard, Opts, After) -> + Gl = lguard(Guard, Opts), [{list,[{step,Before,Gl}]},After]. -lguard([E|Es], Hook) when is_list(E) -> - {list,[{step,'when',expr_list([E|Es], [$;], fun guard0/2, Hook)}]}; -lguard([E|Es], Hook) -> % before R6 - lguard([[E|Es]], Hook); +lguard([E|Es], Opts) when is_list(E) -> + {list,[{step,'when',expr_list([E|Es], [$;], fun guard0/2, Opts)}]}; +lguard([E|Es], Opts) -> % before R6 + lguard([[E|Es]], Opts); lguard([], _) -> []. -guard0(Es, Hook) -> - expr_list(Es, [$,], fun lexpr/2, Hook). +guard0(Es, Opts) -> + expr_list(Es, [$,], fun lexpr/2, Opts). -%% body(Before, Es, Hook) -> [Char]. +%% body(Before, Es, Opts) -> [Char]. -body([E], Hook) -> - lexpr(E, Hook); -body(Es, Hook) -> - {prefer_nl,[$,],lexprs(Es, Hook)}. +body([E], Opts) -> + lexpr(E, Opts); +body(Es, Opts) -> + {prefer_nl,[$,],lexprs(Es, Opts)}. -lexpr(E, Hook) -> - lexpr(E, 0, Hook). +lexpr(E, Opts) -> + lexpr(E, 0, Opts). lexpr({var,_,V}, _, _) when is_integer(V) -> %Special hack for Robert leaf(format("_~w", [V])); lexpr({var,_,V}, _, _) -> leaf(format("~s", [V])); -lexpr({char,_,C}, _, _) -> leaf(write_char(C)); +lexpr({char,_,C}, _, _) -> {char,C}; lexpr({integer,_,N}, _, _) -> leaf(write(N)); lexpr({float,_,F}, _, _) -> leaf(write(F)); lexpr({atom,_,A}, _, _) -> leaf(write(A)); lexpr({string,_,S}, _, _) -> {string,S}; lexpr({nil,_}, _, _) -> '[]'; -lexpr({cons,_,H,T}, _, Hook) -> - list(T, [H], Hook); -lexpr({lc,_,E,Qs}, _Prec, Hook) -> - Lcl = {list,[{step,[lexpr(E, Hook),leaf(" ||")],lc_quals(Qs, Hook)}]}, +lexpr({cons,_,H,T}, _, Opts) -> + list(T, [H], Opts); +lexpr({lc,_,E,Qs}, _Prec, Opts) -> + Lcl = {list,[{step,[lexpr(E, Opts),leaf(" ||")],lc_quals(Qs, Opts)}]}, {list,[{seq,$[,[],[[]],[{force_nl,leaf(" "),[Lcl]}]},$]]}; %% {list,[{step,$[,Lcl},$]]}; -lexpr({bc,_,E,Qs}, _Prec, Hook) -> - Lcl = {list,[{step,[lexpr(E, Hook),leaf(" ||")],lc_quals(Qs, Hook)}]}, +lexpr({bc,_,E,Qs}, _Prec, Opts) -> + Lcl = {list,[{step,[lexpr(E, Opts),leaf(" ||")],lc_quals(Qs, Opts)}]}, {list,[{seq,'<<',[],[[]],[{force_nl,leaf(" "),[Lcl]}]},'>>']}; %% {list,[{step,'<<',Lcl},'>>']}; -lexpr({tuple,_,Elts}, _, Hook) -> - tuple(Elts, Hook); -%%lexpr({struct,_,Tag,Elts}, _, Hook) -> -%% {first,format("~w", [Tag]),tuple(Elts, Hook)}; -lexpr({record_index, _, Name, F}, Prec, Hook) -> +lexpr({tuple,_,Elts}, _, Opts) -> + tuple(Elts, Opts); +%%lexpr({struct,_,Tag,Elts}, _, Opts) -> +%% {first,format("~w", [Tag]),tuple(Elts, Opts)}; +lexpr({record_index, _, Name, F}, Prec, Opts) -> {P,R} = preop_prec('#'), Nl = record_name(Name), - El = [Nl,$.,lexpr(F, R, Hook)], + El = [Nl,$.,lexpr(F, R, Opts)], maybe_paren(P, Prec, El); -lexpr({record, _, Name, Fs}, Prec, Hook) -> +lexpr({record, _, Name, Fs}, Prec, Opts) -> {P,_R} = preop_prec('#'), Nl = record_name(Name), - El = {first,Nl,record_fields(Fs, Hook)}, + El = {first,Nl,record_fields(Fs, Opts)}, maybe_paren(P, Prec, El); -lexpr({record_field, _, Rec, Name, F}, Prec, Hook) -> +lexpr({record_field, _, Rec, Name, F}, Prec, Opts) -> {L,P,R} = inop_prec('#'), - Rl = lexpr(Rec, L, Hook), + Rl = lexpr(Rec, L, Opts), Nl = leaf(format("#~w.", [Name])), - El = [Rl,Nl,lexpr(F, R, Hook)], + El = [Rl,Nl,lexpr(F, R, Opts)], maybe_paren(P, Prec, El); -lexpr({record, _, Rec, Name, Fs}, Prec, Hook) -> +lexpr({record, _, Rec, Name, Fs}, Prec, Opts) -> {L,P,_R} = inop_prec('#'), - Rl = lexpr(Rec, L, Hook), + Rl = lexpr(Rec, L, Opts), Nl = record_name(Name), - El = {first,[Rl,Nl],record_fields(Fs, Hook)}, + El = {first,[Rl,Nl],record_fields(Fs, Opts)}, maybe_paren(P, Prec, El); -lexpr({record_field, _, {atom,_,''}, F}, Prec, Hook) -> +lexpr({record_field, _, {atom,_,''}, F}, Prec, Opts) -> {_L,P,R} = inop_prec('.'), - El = [$.,lexpr(F, R, Hook)], + El = [$.,lexpr(F, R, Opts)], maybe_paren(P, Prec, El); -lexpr({record_field, _, Rec, F}, Prec, Hook) -> +lexpr({record_field, _, Rec, F}, Prec, Opts) -> {L,P,R} = inop_prec('.'), - El = [lexpr(Rec, L, Hook),$.,lexpr(F, R, Hook)], + El = [lexpr(Rec, L, Opts),$.,lexpr(F, R, Opts)], maybe_paren(P, Prec, El); -lexpr({block,_,Es}, _, Hook) -> - {list,[{step,'begin',body(Es, Hook)},'end']}; -lexpr({'if',_,Cs}, _, Hook) -> - {list,[{step,'if',if_clauses(Cs, Hook)},'end']}; -lexpr({'case',_,Expr,Cs}, _, Hook) -> - {list,[{step,{list,[{step,'case',lexpr(Expr, Hook)},'of']}, - cr_clauses(Cs, Hook)}, +lexpr({block,_,Es}, _, Opts) -> + {list,[{step,'begin',body(Es, Opts)},'end']}; +lexpr({'if',_,Cs}, _, Opts) -> + {list,[{step,'if',if_clauses(Cs, Opts)},'end']}; +lexpr({'case',_,Expr,Cs}, _, Opts) -> + {list,[{step,{list,[{step,'case',lexpr(Expr, Opts)},'of']}, + cr_clauses(Cs, Opts)}, 'end']}; -lexpr({'cond',_,Cs}, _, Hook) -> - {list,[{step,leaf("cond"),cond_clauses(Cs, Hook)},'end']}; -lexpr({'receive',_,Cs}, _, Hook) -> - {list,[{step,'receive',cr_clauses(Cs, Hook)},'end']}; -lexpr({'receive',_,Cs,To,ToOpt}, _, Hook) -> - Al = {list,[{step,[lexpr(To, Hook),' ->'],body(ToOpt, Hook)}]}, - {list,[{step,'receive',cr_clauses(Cs, Hook)}, +lexpr({'cond',_,Cs}, _, Opts) -> + {list,[{step,leaf("cond"),cond_clauses(Cs, Opts)},'end']}; +lexpr({'receive',_,Cs}, _, Opts) -> + {list,[{step,'receive',cr_clauses(Cs, Opts)},'end']}; +lexpr({'receive',_,Cs,To,ToOpt}, _, Opts) -> + Al = {list,[{step,[lexpr(To, Opts),' ->'],body(ToOpt, Opts)}]}, + {list,[{step,'receive',cr_clauses(Cs, Opts)}, {step,'after',Al}, 'end']}; -lexpr({'fun',_,{function,F,A}}, _Prec, _Hook) -> +lexpr({'fun',_,{function,F,A}}, _Prec, _Opts) -> leaf(format("fun ~w/~w", [F,A])); -lexpr({'fun',_,{function,F,A},Extra}, _Prec, _Hook) -> +lexpr({'fun',_,{function,F,A},Extra}, _Prec, _Opts) -> {force_nl,fun_info(Extra),leaf(format("fun ~w/~w", [F,A]))}; -lexpr({'fun',_,{function,M,F,A}}, _Prec, _Hook) +lexpr({'fun',_,{function,M,F,A}}, _Prec, _Opts) when is_atom(M), is_atom(F), is_integer(A) -> %% For backward compatibility with pre-R15 abstract format. leaf(format("fun ~w:~w/~w", [M,F,A])); -lexpr({'fun',_,{function,M,F,A}}, _Prec, Hook) -> +lexpr({'fun',_,{function,M,F,A}}, _Prec, Opts) -> %% New format in R15. - NameItem = lexpr(M, Hook), - CallItem = lexpr(F, Hook), - ArityItem = lexpr(A, Hook), + NameItem = lexpr(M, Opts), + CallItem = lexpr(F, Opts), + ArityItem = lexpr(A, Opts), ["fun ",NameItem,$:,CallItem,$/,ArityItem]; -lexpr({'fun',_,{clauses,Cs}}, _Prec, Hook) -> - {list,[{first,'fun',fun_clauses(Cs, Hook)},'end']}; -lexpr({'fun',_,{clauses,Cs},Extra}, _Prec, Hook) -> +lexpr({'fun',_,{clauses,Cs}}, _Prec, Opts) -> + {list,[{first,'fun',fun_clauses(Cs, Opts)},'end']}; +lexpr({'fun',_,{clauses,Cs},Extra}, _Prec, Opts) -> {force_nl,fun_info(Extra), - {list,[{first,'fun',fun_clauses(Cs, Hook)},'end']}}; -lexpr({'query',_,Lc}, _Prec, Hook) -> - {list,[{step,leaf("query"),lexpr(Lc, 0, Hook)},'end']}; -lexpr({call,_,{remote,_,{atom,_,M},{atom,_,F}=N}=Name,Args}, Prec, Hook) -> + {list,[{first,'fun',fun_clauses(Cs, Opts)},'end']}}; +lexpr({call,_,{remote,_,{atom,_,M},{atom,_,F}=N}=Name,Args}, Prec, Opts) -> case erl_internal:bif(M, F, length(Args)) of true -> - call(N, Args, Prec, Hook); + call(N, Args, Prec, Opts); false -> - call(Name, Args, Prec, Hook) + call(Name, Args, Prec, Opts) end; -lexpr({call,_,Name,Args}, Prec, Hook) -> - call(Name, Args, Prec, Hook); -lexpr({'try',_,Es,Scs,Ccs,As}, _, Hook) -> +lexpr({call,_,Name,Args}, Prec, Opts) -> + call(Name, Args, Prec, Opts); +lexpr({'try',_,Es,Scs,Ccs,As}, _, Opts) -> {list,[if Scs =:= [] -> - {step,'try',body(Es, Hook)}; + {step,'try',body(Es, Opts)}; true -> - {step,{list,[{step,'try',body(Es, Hook)},'of']}, - cr_clauses(Scs, Hook)} + {step,{list,[{step,'try',body(Es, Opts)},'of']}, + cr_clauses(Scs, Opts)} end, if Ccs =:= [] -> []; true -> - {step,'catch',try_clauses(Ccs, Hook)} + {step,'catch',try_clauses(Ccs, Opts)} end, if As =:= [] -> []; true -> - {step,'after',body(As, Hook)} + {step,'after',body(As, Opts)} end, 'end']}; -lexpr({'catch',_,Expr}, Prec, Hook) -> +lexpr({'catch',_,Expr}, Prec, Opts) -> {P,R} = preop_prec('catch'), - El = {list,[{step,'catch',lexpr(Expr, R, Hook)}]}, + El = {list,[{step,'catch',lexpr(Expr, R, Opts)}]}, maybe_paren(P, Prec, El); -lexpr({match,_,Lhs,Rhs}, Prec, Hook) -> +lexpr({match,_,Lhs,Rhs}, Prec, Opts) -> {L,P,R} = inop_prec('='), - Pl = lexpr(Lhs, L, Hook), - Rl = lexpr(Rhs, R, Hook), + Pl = lexpr(Lhs, L, Opts), + Rl = lexpr(Rhs, R, Opts), El = {list,[{cstep,[Pl,' ='],Rl}]}, maybe_paren(P, Prec, El); -lexpr({op,_,Op,Arg}, Prec, Hook) -> +lexpr({op,_,Op,Arg}, Prec, Opts) -> {P,R} = preop_prec(Op), Ol = leaf(format("~s ", [Op])), - El = [Ol,lexpr(Arg, R, Hook)], + El = [Ol,lexpr(Arg, R, Opts)], maybe_paren(P, Prec, El); -lexpr({op,_,Op,Larg,Rarg}, Prec, Hook) when Op =:= 'orelse'; +lexpr({op,_,Op,Larg,Rarg}, Prec, Opts) when Op =:= 'orelse'; Op =:= 'andalso' -> %% Breaks lines since R12B. {L,P,R} = inop_prec(Op), - Ll = lexpr(Larg, L, Hook), + Ll = lexpr(Larg, L, Opts), Ol = leaf(format("~s", [Op])), - Lr = lexpr(Rarg, R, Hook), + Lr = lexpr(Rarg, R, Opts), El = {prefer_nl,[[]],[Ll,Ol,Lr]}, maybe_paren(P, Prec, El); -lexpr({op,_,Op,Larg,Rarg}, Prec, Hook) -> +lexpr({op,_,Op,Larg,Rarg}, Prec, Opts) -> {L,P,R} = inop_prec(Op), - Ll = lexpr(Larg, L, Hook), + Ll = lexpr(Larg, L, Opts), Ol = leaf(format("~s", [Op])), - Lr = lexpr(Rarg, R, Hook), + Lr = lexpr(Rarg, R, Opts), El = {list,[Ll,Ol,Lr]}, maybe_paren(P, Prec, El); %% Special expressions which are not really legal everywhere. -lexpr({remote,_,M,F}, Prec, Hook) -> +lexpr({remote,_,M,F}, Prec, Opts) -> {L,P,R} = inop_prec(':'), - NameItem = lexpr(M, L, Hook), - CallItem = lexpr(F, R, Hook), + NameItem = lexpr(M, L, Opts), + CallItem = lexpr(F, R, Opts), maybe_paren(P, Prec, [NameItem,$:,CallItem]); %% BIT SYNTAX: -lexpr({bin,_,Fs}, _, Hook) -> - bit_grp(Fs, Hook); +lexpr({bin,_,Fs}, _, Opts) -> + bit_grp(Fs, Opts); %% Special case for straight values. lexpr({value,_,Val}, _,_) -> leaf(write(Val)); %% Now do the hook. -lexpr(Other, _Precedence, none) -> +lexpr(Other, _Precedence, #options{hook = none}) -> leaf(format("INVALID-FORM:~w:",[Other])); -lexpr(HookExpr, Precedence, {Mod,Func,Eas}) when Mod =/= 'fun' -> +lexpr(HookExpr, Precedence, #options{hook = {Mod,Func,Eas}}) + when Mod =/= 'fun' -> {ehook,HookExpr,Precedence,{Mod,Func,Eas}}; -lexpr(HookExpr, Precedence, Func) -> - {hook,HookExpr,Precedence,Func}. +lexpr(HookExpr, Precedence, #options{hook = Func, opts = Options}) -> + {hook,HookExpr,Precedence,Func,Options}. -call(Name, Args, Prec, Hook) -> +call(Name, Args, Prec, Opts) -> {F,P} = func_prec(), - Item = {first,lexpr(Name, F, Hook),args(Args, Hook)}, + Item = {first,lexpr(Name, F, Opts),args(Args, Opts)}, maybe_paren(P, Prec, Item). fun_info(Extra) -> @@ -565,32 +602,18 @@ fun_info(Extra) -> %% BITS: -bit_grp(Fs, Hook) -> - append([['<<'], - [try - true = Fs =/= [], - S = bin_string(Fs), - true = io_lib:printable_list(S), - {string,S} - catch _:_ -> - bit_elems(Fs, Hook) - end], - ['>>']]). - -bin_string([]) -> - []; -bin_string([{bin_element,_,{char,_,C},_,_}|Bin]) -> - [C | bin_string(Bin)]. +bit_grp(Fs, Opts) -> + append([['<<'], [bit_elems(Fs, Opts)], ['>>']]). -bit_elems(Es, Hook) -> - expr_list(Es, $,, fun bit_elem/2, Hook). +bit_elems(Es, Opts) -> + expr_list(Es, $,, fun bit_elem/2, Opts). -bit_elem({bin_element,_,Expr,Sz,Types}, Hook) -> +bit_elem({bin_element,_,Expr,Sz,Types}, Opts) -> P = max_prec(), - VChars = lexpr(Expr, P, Hook), + VChars = lexpr(Expr, P, Opts), SChars = if Sz =/= default -> - [VChars,$:,lexpr(Sz, P, Hook)]; + [VChars,$:,lexpr(Sz, P, Opts)]; true -> VChars end, @@ -618,157 +641,157 @@ bit_elem_type(T) -> record_name(Name) -> leaf(format("#~w", [Name])). -record_fields(Fs, Hook) -> - tuple(Fs, fun record_field/2, Hook). +record_fields(Fs, Opts) -> + tuple(Fs, fun record_field/2, Opts). -record_field({record_field,_,F,Val}, Hook) -> +record_field({record_field,_,F,Val}, Opts) -> {L,_P,R} = inop_prec('='), - Fl = lexpr(F, L, Hook), - Vl = lexpr(Val, R, Hook), + Fl = lexpr(F, L, Opts), + Vl = lexpr(Val, R, Opts), {list,[{cstep,[Fl,' ='],Vl}]}; -record_field({typed_record_field,{record_field,_,F,Val},Type}, Hook) -> +record_field({typed_record_field,{record_field,_,F,Val},Type}, Opts) -> {L,_P,R} = inop_prec('='), - Fl = lexpr(F, L, Hook), - Vl = typed(lexpr(Val, R, Hook), Type), + Fl = lexpr(F, L, Opts), + Vl = typed(lexpr(Val, R, Opts), Type), {list,[{cstep,[Fl,' ='],Vl}]}; -record_field({typed_record_field,Field,Type}, Hook) -> - typed(record_field(Field, Hook), Type); -record_field({record_field,_,F}, Hook) -> - lexpr(F, 0, Hook). - -list({cons,_,H,T}, Es, Hook) -> - list(T, [H|Es], Hook); -list({nil,_}, Es, Hook) -> - proper_list(reverse(Es), Hook); -list(Other, Es, Hook) -> - improper_list(reverse(Es, [Other]), Hook). - -%% if_clauses(Clauses, Hook) -> [Char]. +record_field({typed_record_field,Field,Type}, Opts) -> + typed(record_field(Field, Opts), Type); +record_field({record_field,_,F}, Opts) -> + lexpr(F, 0, Opts). + +list({cons,_,H,T}, Es, Opts) -> + list(T, [H|Es], Opts); +list({nil,_}, Es, Opts) -> + proper_list(reverse(Es), Opts); +list(Other, Es, Opts) -> + improper_list(reverse(Es, [Other]), Opts). + +%% if_clauses(Clauses, Opts) -> [Char]. %% Print 'if' clauses. -if_clauses(Cs, Hook) -> - clauses(fun if_clause/2, Hook, Cs). +if_clauses(Cs, Opts) -> + clauses(fun if_clause/2, Opts, Cs). -if_clause({clause,_,[],G,B}, Hook) -> - Gl = [guard_no_when(G, Hook),' ->'], - {step,Gl,body(B, Hook)}. +if_clause({clause,_,[],G,B}, Opts) -> + Gl = [guard_no_when(G, Opts),' ->'], + {step,Gl,body(B, Opts)}. -guard_no_when([E|Es], Hook) when is_list(E) -> - expr_list([E|Es], $;, fun guard0/2, Hook); -guard_no_when([E|Es], Hook) -> % before R6 - guard_no_when([[E|Es]], Hook); +guard_no_when([E|Es], Opts) when is_list(E) -> + expr_list([E|Es], $;, fun guard0/2, Opts); +guard_no_when([E|Es], Opts) -> % before R6 + guard_no_when([[E|Es]], Opts); guard_no_when([], _) -> % cannot happen leaf("true"). -%% cr_clauses(Clauses, Hook) -> [Char]. +%% cr_clauses(Clauses, Opts) -> [Char]. %% Print 'case'/'receive' clauses. -cr_clauses(Cs, Hook) -> - clauses(fun cr_clause/2, Hook, Cs). +cr_clauses(Cs, Opts) -> + clauses(fun cr_clause/2, Opts, Cs). -cr_clause({clause,_,[T],G,B}, Hook) -> - El = lexpr(T, 0, Hook), - Gl = guard_when(El, G, Hook), - Bl = body(B, Hook), +cr_clause({clause,_,[T],G,B}, Opts) -> + El = lexpr(T, 0, Opts), + Gl = guard_when(El, G, Opts), + Bl = body(B, Opts), {step,Gl,Bl}. -%% try_clauses(Clauses, Hook) -> [Char]. +%% try_clauses(Clauses, Opts) -> [Char]. %% Print 'try' clauses. -try_clauses(Cs, Hook) -> - clauses(fun try_clause/2, Hook, Cs). +try_clauses(Cs, Opts) -> + clauses(fun try_clause/2, Opts, Cs). -try_clause({clause,_,[{tuple,_,[{atom,_,throw},V,S]}],G,B}, Hook) -> - El = lexpr(V, 0, Hook), - Sl = stack_backtrace(S, [El], Hook), - Gl = guard_when(Sl, G, Hook), - Bl = body(B, Hook), +try_clause({clause,_,[{tuple,_,[{atom,_,throw},V,S]}],G,B}, Opts) -> + El = lexpr(V, 0, Opts), + Sl = stack_backtrace(S, [El], Opts), + Gl = guard_when(Sl, G, Opts), + Bl = body(B, Opts), {step,Gl,Bl}; -try_clause({clause,_,[{tuple,_,[C,V,S]}],G,B}, Hook) -> - Cs = lexpr(C, 0, Hook), - El = lexpr(V, 0, Hook), +try_clause({clause,_,[{tuple,_,[C,V,S]}],G,B}, Opts) -> + Cs = lexpr(C, 0, Opts), + El = lexpr(V, 0, Opts), CsEl = [Cs,$:,El], - Sl = stack_backtrace(S, CsEl, Hook), - Gl = guard_when(Sl, G, Hook), - Bl = body(B, Hook), + Sl = stack_backtrace(S, CsEl, Opts), + Gl = guard_when(Sl, G, Opts), + Bl = body(B, Opts), {step,Gl,Bl}. -stack_backtrace({var,_,'_'}, El, _Hook) -> +stack_backtrace({var,_,'_'}, El, _Opts) -> El; -stack_backtrace(S, El, Hook) -> - El++[$:,lexpr(S, 0, Hook)]. +stack_backtrace(S, El, Opts) -> + El++[$:,lexpr(S, 0, Opts)]. -%% fun_clauses(Clauses, Hook) -> [Char]. +%% fun_clauses(Clauses, Opts) -> [Char]. %% Print 'fun' clauses. -fun_clauses(Cs, Hook) -> - nl_clauses(fun fun_clause/2, [$;], Hook, Cs). +fun_clauses(Cs, Opts) -> + nl_clauses(fun fun_clause/2, [$;], Opts, Cs). -fun_clause({clause,_,A,G,B}, Hook) -> - El = args(A, Hook), - Gl = guard_when(El, G, Hook), - Bl = body(B, Hook), +fun_clause({clause,_,A,G,B}, Opts) -> + El = args(A, Opts), + Gl = guard_when(El, G, Opts), + Bl = body(B, Opts), {step,Gl,Bl}. -%% cond_clauses(Clauses, Hook) -> [Char]. +%% cond_clauses(Clauses, Opts) -> [Char]. %% Print 'cond' clauses. -cond_clauses(Cs, Hook) -> - clauses(fun cond_clause/2, Hook, Cs). +cond_clauses(Cs, Opts) -> + clauses(fun cond_clause/2, Opts, Cs). -cond_clause({clause,_,[],[[E]],B}, Hook) -> - {step,[lexpr(E, Hook),' ->'],body(B, Hook)}. +cond_clause({clause,_,[],[[E]],B}, Opts) -> + {step,[lexpr(E, Opts),' ->'],body(B, Opts)}. -%% nl_clauses(Type, Hook, Clauses) -> [Char]. +%% nl_clauses(Type, Opts, Clauses) -> [Char]. %% Generic clause printing function (always breaks lines). -nl_clauses(Type, Sep, Hook, Cs) -> - {prefer_nl,Sep,lexprs(Cs, Type, Hook)}. +nl_clauses(Type, Sep, Opts, Cs) -> + {prefer_nl,Sep,lexprs(Cs, Type, Opts)}. -%% clauses(Type, Hook, Clauses) -> [Char]. +%% clauses(Type, Opts, Clauses) -> [Char]. %% Generic clause printing function (breaks lines since R12B). -clauses(Type, Hook, Cs) -> - {prefer_nl,[$;],lexprs(Cs, Type, Hook)}. +clauses(Type, Opts, Cs) -> + {prefer_nl,[$;],lexprs(Cs, Type, Opts)}. -%% lc_quals(Qualifiers, After, Hook) +%% lc_quals(Qualifiers, After, Opts) %% List comprehension qualifiers (breaks lines since R12B). -lc_quals(Qs, Hook) -> - {prefer_nl,[$,],lexprs(Qs, fun lc_qual/2, Hook)}. +lc_quals(Qs, Opts) -> + {prefer_nl,[$,],lexprs(Qs, fun lc_qual/2, Opts)}. -lc_qual({b_generate,_,Pat,E}, Hook) -> - Pl = lexpr(Pat, 0, Hook), - {list,[{step,[Pl,leaf(" <=")],lexpr(E, 0, Hook)}]}; -lc_qual({generate,_,Pat,E}, Hook) -> - Pl = lexpr(Pat, 0, Hook), - {list,[{step,[Pl,leaf(" <-")],lexpr(E, 0, Hook)}]}; -lc_qual(Q, Hook) -> - lexpr(Q, 0, Hook). +lc_qual({b_generate,_,Pat,E}, Opts) -> + Pl = lexpr(Pat, 0, Opts), + {list,[{step,[Pl,leaf(" <=")],lexpr(E, 0, Opts)}]}; +lc_qual({generate,_,Pat,E}, Opts) -> + Pl = lexpr(Pat, 0, Opts), + {list,[{step,[Pl,leaf(" <-")],lexpr(E, 0, Opts)}]}; +lc_qual(Q, Opts) -> + lexpr(Q, 0, Opts). -proper_list(Es, Hook) -> - {seq,$[,$],$,,lexprs(Es, Hook)}. +proper_list(Es, Opts) -> + {seq,$[,$],$,,lexprs(Es, Opts)}. -improper_list(Es, Hook) -> - {seq,$[,$],{$,,$|},lexprs(Es, Hook)}. +improper_list(Es, Opts) -> + {seq,$[,$],{$,,$|},lexprs(Es, Opts)}. -tuple(L, Hook) -> - tuple(L, fun lexpr/2, Hook). +tuple(L, Opts) -> + tuple(L, fun lexpr/2, Opts). -tuple(Es, F, Hook) -> - {seq,${,$},$,,lexprs(Es, F, Hook)}. +tuple(Es, F, Opts) -> + {seq,${,$},$,,lexprs(Es, F, Opts)}. -args(As, Hook) -> - {seq,$(,$),[$,],lexprs(As, Hook)}. +args(As, Opts) -> + {seq,$(,$),[$,],lexprs(As, Opts)}. -expr_list(Es, Sep, F, Hook) -> - {seq,[],[],Sep,lexprs(Es, F, Hook)}. +expr_list(Es, Sep, F, Opts) -> + {seq,[],[],Sep,lexprs(Es, F, Opts)}. -lexprs(Es, Hook) -> - lexprs(Es, fun lexpr/2, Hook). +lexprs(Es, Opts) -> + lexprs(Es, fun lexpr/2, Opts). -lexprs(Es, F, Hook) -> - [F(E, Hook) || E <- Es]. +lexprs(Es, F, Opts) -> + [F(E, Opts) || E <- Es]. maybe_paren(P, Prec, Expr) when P < Prec -> [$(,Expr,$)]; @@ -781,13 +804,13 @@ leaf(S) -> %%% Do the formatting. Currently nothing fancy. Could probably have %%% done it in one single pass. -frmt(Item) -> - frmt(Item, 0). +frmt(Item, PP) -> + frmt(Item, 0, PP). -frmt(Item, I) -> +frmt(Item, I, PP) -> ST = spacetab(), WT = wordtable(), - {Chars,_Length} = f(Item, I, ST, WT), + {Chars,_Length} = f(Item, I, ST, WT, PP), [Chars]. %%% What the tags mean: @@ -803,6 +826,7 @@ frmt(Item, I) -> %%% - {force_nl,ExtraInfo,I}: fun-info (a comment) forces linebreak before I. %%% - {prefer_nl,Sep,IPs}: forces linebreak between Is unlesss negative %%% indentation. +%%% - {char,C}: a character %%% - {string,S}: a string. %%% - {hook,...}, {ehook,...}: hook expressions. %%% @@ -812,22 +836,22 @@ frmt(Item, I) -> %%% cstep works similarly, but no linebreak if the width of I1 is less %%% than the indentation (this is for "A = <expression over several lines>). -f([]=Nil, _I0, _ST, _WT) -> +f([]=Nil, _I0, _ST, _WT, _PP) -> {Nil,0}; -f(C, _I0, _ST, _WT) when is_integer(C) -> +f(C, _I0, _ST, _WT, _PP) when is_integer(C) -> {C,1}; -f({leaf,Length,Chars}, _I0, _ST, _WT) -> +f({leaf,Length,Chars}, _I0, _ST, _WT, _PP) -> {Chars,Length}; -f([Item|Items], I0, ST, WT) -> - consecutive(Items, f(Item, I0, ST, WT), I0, ST, WT); -f({list,Items}, I0, ST, WT) -> - f({seq,[],[],[[]],Items}, I0, ST, WT); -f({first,E,Item}, I0, ST, WT) -> - f({seq,E,[],[[]],[Item]}, I0, ST, WT); -f({seq,Before,After,Sep,LItems}, I0, ST, WT) -> - BCharsSize = f(Before, I0, ST, WT), +f([Item|Items], I0, ST, WT, PP) -> + consecutive(Items, f(Item, I0, ST, WT, PP), I0, ST, WT, PP); +f({list,Items}, I0, ST, WT, PP) -> + f({seq,[],[],[[]],Items}, I0, ST, WT, PP); +f({first,E,Item}, I0, ST, WT, PP) -> + f({seq,E,[],[[]],[Item]}, I0, ST, WT, PP); +f({seq,Before,After,Sep,LItems}, I0, ST, WT, PP) -> + BCharsSize = f(Before, I0, ST, WT, PP), I = indent(BCharsSize, I0), - CharsSizeL = fl(LItems, Sep, I, After, ST, WT), + CharsSizeL = fl(LItems, Sep, I, After, ST, WT, PP), {CharsL,SizeL} = unz(CharsSizeL), {BCharsL,BSizeL} = unz1([BCharsSize]), Sizes = BSizeL ++ SizeL, @@ -848,15 +872,15 @@ f({seq,Before,After,Sep,LItems}, I0, ST, WT) -> {BCharsL++insert_newlines(CharsSizeL, I, ST), nsz(lists:last(Sizes), I0)} end; -f({force_nl,_ExtraInfoItem,Item}, I, ST, WT) when I < 0 -> +f({force_nl,_ExtraInfoItem,Item}, I, ST, WT, PP) when I < 0 -> %% Extra info is a comment; cannot have that on the same line - f(Item, I, ST, WT); -f({force_nl,ExtraInfoItem,Item}, I, ST, WT) -> - f({prefer_nl,[],[ExtraInfoItem,Item]}, I, ST, WT); -f({prefer_nl,Sep,LItems}, I, ST, WT) when I < 0 -> - f({seq,[],[],Sep,LItems}, I, ST, WT); -f({prefer_nl,Sep,LItems}, I0, ST, WT) -> - CharsSize2L = fl(LItems, Sep, I0, [], ST, WT), + f(Item, I, ST, WT, PP); +f({force_nl,ExtraInfoItem,Item}, I, ST, WT, PP) -> + f({prefer_nl,[],[ExtraInfoItem,Item]}, I, ST, WT, PP); +f({prefer_nl,Sep,LItems}, I, ST, WT, PP) when I < 0 -> + f({seq,[],[],Sep,LItems}, I, ST, WT, PP); +f({prefer_nl,Sep,LItems}, I0, ST, WT, PP) -> + CharsSize2L = fl(LItems, Sep, I0, [], ST, WT, PP), {_CharsL,Sizes} = unz(CharsSize2L), if Sizes =:= [] -> @@ -864,37 +888,40 @@ f({prefer_nl,Sep,LItems}, I0, ST, WT) -> true -> {insert_newlines(CharsSize2L, I0, ST),nsz(lists:last(Sizes), I0)} end; -f({string,S}, I, ST, WT) -> - f(write_a_string(S, I), I, ST, WT); -f({hook,HookExpr,Precedence,Func}, I, _ST, _WT) -> - Chars = Func(HookExpr, I, Precedence, Func), +f({char,C}, I, ST, WT, PP) -> + f(write_a_char(C, PP), I, ST, WT, PP); +f({string,S}, I, ST, WT, PP) -> + f(write_a_string(S, I, PP), I, ST, WT, PP); +f({hook,HookExpr,Precedence,Func,Options}, I, _ST, _WT, _PP) -> + Chars = Func(HookExpr, I, Precedence, Options), {Chars,indentation(Chars, I)}; -f({ehook,HookExpr,Precedence,{Mod,Func,Eas}=ModFuncEas}, I, _ST, _WT) -> +f({ehook,HookExpr,Precedence,{Mod,Func,Eas}=ModFuncEas}, I, _ST, _WT, _PP) -> Chars = apply(Mod, Func, [HookExpr,I,Precedence,ModFuncEas|Eas]), {Chars,indentation(Chars, I)}; -f(WordName, _I, _ST, WT) -> % when is_atom(WordName) +f(WordName, _I, _ST, WT, _PP) -> % when is_atom(WordName) word(WordName, WT). -define(IND, 4). %% fl(ListItems, I0, ST, WT) -> [[CharsSize1,CharsSize2]] %% ListItems = [{Item,Items}|Item] -fl([], _Sep, I0, After, ST, WT) -> - [[f(After, I0, ST, WT),{[],0}]]; -fl(CItems, Sep0, I0, After, ST, WT) -> +fl([], _Sep, I0, After, ST, WT, PP) -> + [[f(After, I0, ST, WT, PP),{[],0}]]; +fl(CItems, Sep0, I0, After, ST, WT, PP) -> F = fun({step,Item1,Item2}, S) -> - [f(Item1, I0, ST, WT),f([Item2,S], incr(I0, ?IND), ST, WT)]; + [f(Item1, I0, ST, WT, PP), + f([Item2,S], incr(I0, ?IND), ST, WT, PP)]; ({cstep,Item1,Item2}, S) -> - {_,Sz1} = CharSize1 = f(Item1, I0, ST, WT), + {_,Sz1} = CharSize1 = f(Item1, I0, ST, WT, PP), if is_integer(Sz1), Sz1 < ?IND -> Item2p = [leaf("\s"),Item2,S], - [consecutive(Item2p, CharSize1, I0, ST, WT),{[],0}]; + [consecutive(Item2p, CharSize1, I0, ST, WT, PP),{[],0}]; true -> - [CharSize1,f([Item2,S], incr(I0, ?IND), ST, WT)] + [CharSize1,f([Item2,S], incr(I0, ?IND), ST, WT, PP)] end; (Item, S) -> - [f([Item,S], I0, ST, WT),{[],0}] + [f([Item,S], I0, ST, WT, PP),{[],0}] end, {Sep,LastSep} = case Sep0 of {_,_} -> Sep0; _ -> {Sep0,Sep0} end, fl1(CItems, F, Sep, LastSep, After). @@ -906,10 +933,10 @@ fl1([CItem1,CItem2], F, _Sep, LastSep, After) -> fl1([CItem|CItems], F, Sep, LastSep, After) -> [F(CItem, Sep)|fl1(CItems, F, Sep, LastSep, After)]. -consecutive(Items, CharSize1, I0, ST, WT) -> +consecutive(Items, CharSize1, I0, ST, WT, PP) -> {CharsSizes,_Length} = mapfoldl(fun(Item, Len) -> - CharsSize = f(Item, Len, ST, WT), + CharsSize = f(Item, Len, ST, WT, PP), {CharsSize,indent(CharsSize, Len)} end, indent(CharSize1, I0), Items), {CharsL,SizeL} = unz1([CharSize1|CharsSizes]), @@ -999,26 +1026,40 @@ has_nl([C|Cs]) -> has_nl([]) -> false. +write_a_char(C, PP) -> + flat_leaf(write_char(C, PP)). + -define(MIN_SUBSTRING, 5). -write_a_string(S, I) when I < 0; S =:= [] -> - leaf(write_string(S)); -write_a_string(S, I) -> +write_a_string(S, I, PP) when I < 0; S =:= [] -> + flat_leaf(write_string(S, PP)); +write_a_string(S, I, PP) -> Len = erlang:max(?MAXLINE-I, ?MIN_SUBSTRING), - {list,write_a_string(S, Len, Len)}. + {list,write_a_string(S, Len, Len, PP)}. -write_a_string([], _N, _Len) -> +write_a_string([], _N, _Len, _PP) -> []; -write_a_string(S, N, Len) -> +write_a_string(S, N, Len, PP) -> SS = string:sub_string(S, 1, N), - Sl = write_string(SS), - case (iolist_size(Sl) > Len) and (N > ?MIN_SUBSTRING) of + Sl = write_string(SS, PP), + case (length(Sl) > Len) and (N > ?MIN_SUBSTRING) of true -> - write_a_string(S, N-1, Len); + write_a_string(S, N-1, Len, PP); false -> - [leaf(Sl)|write_a_string(lists:nthtail(length(SS), S), Len, Len)] + [flat_leaf(Sl) | + write_a_string(lists:nthtail(length(SS), S), Len, Len, PP)] end. +flat_leaf(S) -> + L = lists:flatten(S), + {leaf,length(L),L}. + +write_string(S, PP) -> + lists:flatten((PP#pp.string_fun)(S)). + +write_char(C, PP) -> + lists:flatten((PP#pp.char_fun)(C)). + %% %% Utilities %% |