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xmpp.chapril.org-ejabberd/doc/devdoc/escobar_hilite.erl
2009-10-23 15:12:32 +00:00

332 lines
10 KiB
Erlang

%%%-------------------------------------------------------------------
%%% File : escobar_tree.erl
%%% Author : Mats Cronqvist <etxmacr@mwux005>
%%% Description :
%%%
%%% Created : 6 Jun 2005 by Mats Cronqvist <etxmacr@mwux005>
%%%-------------------------------------------------------------------
-module(escobar_hilite).
-export([file/1,tree/1,string/1,out/2]).
-define(LOG(T),escobar:log(process_info(self()),T)).
-import(erl_syntax,
[get_ann/1,add_ann/2,subtrees/1,update_tree/2,type/1,get_pos/1,
application/2,application_arguments/1,application_operator/1,
arity_qualifier_argument/1,arity_qualifier_body/1,
atom_name/1,atom_value/1,
attribute/2,attribute_name/1,attribute_arguments/1,
clause/3,clause_patterns/1,clause_guard/1,clause_body/1,
comment/2,comment_text/1,comment_padding/1,
function/2,function_name/1,function_clauses/1,function_arity/1,
integer_literal/1,
list/1,list_elements/1,
macro/2,macro_name/1,macro_arguments/1,
module_qualifier_body/1, module_qualifier_argument/1,
string_value/1,string_literal/1,
variable_literal/1,variable_name/1,
record_access/3, record_access_argument/1,
record_access_field/1,record_access_type/1,
record_expr/3, record_expr_argument/1,
record_expr_fields/1, record_expr_type/1,
record_index_expr/2, record_index_expr_field/1,
record_index_expr_type/1,
form_list/1,
get_precomments/1,get_postcomments/1,has_comments/1,
copy_comments/2,remove_comments/1]).
-import(prettypr,
[above/2,follow/2,beside/2,empty/0,
null_text/1,break/1,floating/3,text/1,floating/1]).
-import(lists,[flatten/1,duplicate/2,keysearch/3,member/2,usort/1,reverse/1]).
-import(filename,[join/1,basename/1]).
out(File,HtmlString) ->
{ok,FD}=file:open(File,[write]),
try
io:fwrite(FD,"<html>",[]),
io:fwrite(FD,"<link rel=\"stylesheet\" type=\"text/css\"",[]),
io:fwrite(FD,"href=\"escobar.css\"></link><body><pre>",[]),
io:fwrite(FD,"~s",[HtmlString]),
io:fwrite(FD,"</pre></body></html>",[])
after
file:close(FD)
end.
string(Str) ->
tree(form_list(scan_and_parse(Str,1,[]))).
scan_and_parse([],_Line,Forms) -> reverse(Forms);
scan_and_parse(Text,Line,Forms) ->
{done,{ok,Toks,NLine},Cont} = erl_scan:tokens([],Text,Line),
{ok,Form} = erl_parse:parse_form(Toks),
scan_and_parse(Cont,NLine,[Form|Forms]).
file(FileName) ->
case filelib:is_regular(FileName) of
true ->
case filename:extension(FileName) of
".beam"-> tree(get_tree_beam(FileName));
".erl" -> tree(get_comm_tree_erl(FileName));
".hrl" -> tree(get_comm_tree_erl(FileName));
X -> erlang:error({unknown_extension,X})
end;
false->
erlang:error({no_file,FileName})
end.
get_comm_tree_erl(Filename) ->
Comms = erl_comment_scan:file(Filename),
Forms = get_forms_erl(Filename),
erl_recomment:recomment_forms(Forms,Comms).
get_tree_beam(Filename) ->
case beam_lib:chunks(Filename,["Abst"]) of
{ok,{_,[{"Abst",AChunk}]}} ->
{_,Forms} = binary_to_term(AChunk),
form_list(Forms);
_ ->
erlang:error({no_debuginfo,Filename})
end.
get_forms_erl(Filename) ->
{ok,Fs} = epp_dodger:parse_file(Filename,[{no_fail, true}]),
Fs.
%%% # tree
%%% turn a syntax tree into html by annotating and pretty-printing
%%% with a hook function
tree(Tree) ->
pout(ann(type(Tree),Tree)).
%%lists:foldl(fun(Form,Acc) -> [pout(ann(Form))|Acc] end, [], Tree).
pout(Form) ->
erl_prettypr:format(Form,[{hook,fun tag/3},{paper,90},{ribbon,650}]).
%%% ## formatting
%%% ### 'tag' - the format hook function
tag(Node,Ctxt,Cont) ->
Tags = get_ann(Node),
case member(has_comment,Tags) of
true ->
PreC = get_precomments(Node),
PostC = get_postcomments(Node),
Nod = remove_comments(Node),
Doc0 = tagit(Tags--[has_comment],Cont(Nod,Ctxt)),
postcomment(precomment(Doc0,PreC),PostC);
false ->
Doc0 = Cont(Node,Ctxt),
tagit(Tags,Doc0)
end.
tagit([],Doc0) ->
Doc0;
tagit(["binary"],{beside,_,{beside,Doc,_}}) ->
beside(floating(text("&lt;&lt;")),beside(Doc,floating(text("&gt;&gt;"))));
tagit([Tag],Doc0) ->
beside(null_text(Tag),beside(Doc0,null_text(etag(Tag)))).
etag("<"++Tag) -> "</"++hd(string:tokens(Tag," "))++">".
%%%### comment stuff
precomment(Doc,PreC) ->
above(floating(break(stack(PreC)), -1, -1), Doc).
postcomment(Doc,PostC) ->
beside(Doc, floating(break(stack(PostC)), 1, 0)).
stack([]) -> empty();
stack([Comm|Comms]) ->
Doc = maybe_pad(stack_comment_lines(comment_text(Comm)),Comm),
case Comms of
[] -> Doc;
_ -> above(Doc, stack(Comms))
end.
maybe_pad(Doc,Comm) ->
case comment_padding(Comm) of
I when is_integer(I), 0 < I -> beside(text(duplicate(I,$ )), Doc);
_ -> Doc
end.
%%% stolen with pride from erl_prettypr
%%% Stack lines of text above each other and prefix each string in
%%% the list with a single `%' character.
stack_comment_lines([S | Ss]) ->
D = tagit([dehtml('span', [{class,comment}])],text("%"++debracket(S))),
case Ss of
[] -> D;
_ -> above(D, stack_comment_lines(Ss))
end;
stack_comment_lines([]) ->
empty().
%%% annotate nodes that should be hilited
%%% the annotation is put on the subtree that should be marked up
%%% the annotation is;
%%% has_comments|Markup
%%% if a node already has an annotation the new one is dropped, except
%%% if either the new or the old one is has_comments
ann(binary,Tree) ->
new_tree(Tree,add_anno("binary",Tree));
ann(application,Tree) ->
Op = application_operator(Tree),
Args = application_arguments(Tree),
new_tree(Tree,application(add_anno(mu(application,Tree),Op),Args));
ann(attribute,Tree) ->
Name = attribute_name(Tree),
case atom_value(Name) of
export ->
AQs = list_elements(hd(attribute_arguments(Tree))),
Args = [list([add_anno(mu(export,Tree),AQ) || AQ <- AQs])];
import ->
[ImportMod,ImportFAs] = attribute_arguments(Tree),
AQs = list_elements(ImportFAs),
Args = [ImportMod,list([add_anno(mu(import,Tree),AQ) || AQ <- AQs])];
define ->
[Macro|Rest] = attribute_arguments(Tree),
case type(Macro) of
application ->
Op = application_operator(Macro),
As = application_arguments(Macro),
Args = [application(add_anno(mu(macro,Tree),Op),As)|Rest];
_ ->
Args = [add_anno(mu(macro,Tree),Macro)|Rest]
end;
record ->
[Rec|Rest] = attribute_arguments(Tree),
Args = [add_anno(mu(record,Tree),Rec)|Rest];
_ ->
Args = attribute_arguments(Tree)
end,
new_tree(Tree,attribute(add_anno(mu(attribute,Tree),Name),Args));
ann(record_access,Tree) ->
Arg = record_access_argument(Tree),
Type = record_access_type(Tree),
Field = record_access_field(Tree),
new_tree(Tree,record_access(Arg,add_anno(mu(record,Tree),Type),Field));
ann(record_expr,Tree) ->
Arg = record_expr_argument(Tree),
Type = record_expr_type(Tree),
Fields = record_expr_fields(Tree),
new_tree(Tree,record_expr(Arg,add_anno(mu(record,Tree),Type),Fields));
ann(record_index_expr,Tree) ->
Type = record_index_expr_type(Tree),
Field = record_index_expr_field(Tree),
new_tree(Tree,record_index_expr(add_anno(mu(record,Tree),Type),Field));
ann(function,Tree) ->
Name = function_name(Tree),
Clauses = function_clauses(Tree),
new_tree(Tree,function(add_anno(mu(function,Tree),Name),Clauses));
ann(macro,Tree) ->
Name = macro_name(Tree),
Args = macro_arguments(Tree),
new_tree(Tree,macro(add_anno(mu(macro,Tree),Name), Args));
ann(string,OTree) ->
Tree = erl_syntax:string(debracket(string_value(OTree))),
new_tree(OTree,add_anno(mu(string,OTree),Tree));
ann(variable,Tree) ->
new_tree(Tree,add_anno(mu(variable,Tree),Tree));
ann(text,Tree) ->
new_tree(Tree,add_anno(mu(error,Tree),Tree));
ann(comment,OTree) ->
Pad = comment_padding(OTree),
Text = [debracket(S) || S <- comment_text(OTree)],
Tree = comment(Pad,Text),
new_tree(OTree,add_anno(mu(comment,OTree),Tree));
ann(_Typ,Tree) ->
new_tree(Tree,Tree).
new_tree(OTree,NTree) ->
Tree =
case has_comments(OTree) of
true -> add_ann(has_comment,copy_comments(OTree,NTree));
false -> NTree
end,
SubTrees = subtrees(Tree),
case [[ann(type(SubT),SubT) || SubT<-Group] || Group<-SubTrees] of
[] -> Tree;
NSubtrees -> update_tree(Tree,NSubtrees)
end.
debracket([]) -> [];
debracket([$>|Str]) -> "&gt;"++debracket(Str);
debracket([$<|Str]) -> "&lt;"++debracket(Str);
debracket([C|Str]) -> [C|debracket(Str)].
add_anno(nil,Tree) -> Tree;
add_anno(Ann,Tree) ->
case get_ann(Tree) of
[] -> add_ann(Ann,Tree);
[has_comment] -> add_ann(Ann,Tree);
_OAnn -> Tree
end.
%%%### the markups
mu(application,Node) ->
Op = application_operator(Node),
Ar = length(application_arguments(Node)),
case type(Op) of
%% variable ->
%% dehtml('span', [{class,variable}]);
atom ->
case is_guard_or_builtin(atom_value(Op),Ar) of
guard -> dehtml('span', [{class,guard}]);
builtin->dehtml('span', [{class,builtin}]);
neither->dehtml('span', [{class,call}])
end;
module_qualifier ->
Mod = module_qualifier_argument(Op),
Fun = module_qualifier_body(Op),
case {type(Mod),type(Fun)} of
{atom,atom} ->
case atom_value(Mod) of
erlang -> dehtml('span', [{class,builtin}]);
_ -> dehtml('span', [{class,call}])
end;
_ ->
nil
end;
_ ->
nil
end;
mu(function = Class, {tree, function, _, {function, _, [{tree, clause, _, {clause, Vars, _, _}} | _]}}) ->
dehtml('span', [{class,Class}, {arity,length(Vars)}]);
mu(Class,_Node) ->
dehtml('span', [{class,Class}]).
dehtml(Tag,Atts) ->
flatten([$<,str(Tag),$ ,[[str(A),"=\"",str(V),"\" "]||{A,V}<-Atts],$>]).
str(I) when is_integer(I) -> integer_to_list(I);
str(A) when is_atom(A) -> atom_to_list(A);
str(L) when is_list(L) -> L.
is_guard_or_builtin(atom,1) ->guard;
is_guard_or_builtin(binary,1) ->guard;
is_guard_or_builtin(constant,1) ->guard;
is_guard_or_builtin(float,1) ->guard;
is_guard_or_builtin(function,1) ->guard;
is_guard_or_builtin(function,2) ->guard;
is_guard_or_builtin(integer,1) ->guard;
is_guard_or_builtin(list,1) ->guard;
is_guard_or_builtin(number,1) ->guard;
is_guard_or_builtin(pid,1) ->guard;
is_guard_or_builtin(port,1) ->guard;
is_guard_or_builtin(reference,1) ->guard;
is_guard_or_builtin(tuple,1) ->guard;
is_guard_or_builtin(record,2) ->guard;
is_guard_or_builtin(record,3) ->guard;
is_guard_or_builtin(F,A) ->
case erlang:function_exported(erlang,F,A) orelse
erlang:is_builtin(erlang,F,A) of
true -> builtin;
false-> neither
end.