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+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2003-2009. 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%
+%%
+
+%% Description : Simgle-pass XML scanner. See xmerl.hrl for data defs.
+
+%% @doc This module is the interface to the XML parser, it handles XML 1.0.
+%% The XML parser is activated through
+%% <tt>xmerl_scan:string/[1,2]</tt> or
+%% <tt>xmerl_scan:file/[1,2]</tt>.
+%% It returns records of the type defined in xmerl.hrl.
+%% See also <a href="xmerl_examples.html">tutorial</a> on customization
+%% functions.
+%% @type global_state(). <p>
+%% The global state of the scanner, represented by the #xmerl_scanner{} record.
+%% </p>
+%% @type option_list(). <p>Options allow to customize the behaviour of the
+%% scanner.
+%% See also <a href="xmerl_examples.html">tutorial</a> on customization
+%% functions.
+%% </p>
+%% Possible options are:
+%% <dl>
+%% <dt><code>{acc_fun, Fun}</code></dt>
+%% <dd>Call back function to accumulate contents of entity.</dd>
+%% <dt><code>{continuation_fun, Fun} |
+%% {continuation_fun, Fun, ContinuationState}</code></dt>
+%% <dd>Call back function to decide what to do if the scanner runs into EOF
+%% before the document is complete.</dd>
+%% <dt><code>{event_fun, Fun} |
+%% {event_fun, Fun, EventState}</code></dt>
+%% <dd>Call back function to handle scanner events.</dd>
+%% <dt><code>{fetch_fun, Fun} |
+%% {fetch_fun, Fun, FetchState}</code></dt>
+%% <dd>Call back function to fetch an external resource.</dd>
+%% <dt><code>{hook_fun, Fun} |
+%% {hook_fun, Fun, HookState}</code></dt>
+%% <dd>Call back function to process the document entities once
+%% identified.</dd>
+%% <dt><code>{close_fun, Fun}</code></dt>
+%% <dd>Called when document has been completely parsed.</dd>
+%% <dt><code>{rules, ReadFun, WriteFun, RulesState} |
+%% {rules, Rules}</code></dt>
+%% <dd>Handles storing of scanner information when parsing.</dd>
+%% <dt><code>{user_state, UserState}</code></dt>
+%% <dd>Global state variable accessible from all customization functions</dd>
+%%
+%% <dt><code>{fetch_path, PathList}</code></dt>
+%% <dd>PathList is a list of
+%% directories to search when fetching files. If the file in question
+%% is not in the fetch_path, the URI will be used as a file
+%% name.</dd>
+%% <dt><code>{space, Flag}</code></dt>
+%% <dd>'preserve' (default) to preserve spaces, 'normalize' to
+%% accumulate consecutive whitespace and replace it with one space.</dd>
+%% <dt><code>{line, Line}</code></dt>
+%% <dd>To specify starting line for scanning in document which contains
+%% fragments of XML.</dd>
+%% <dt><code>{namespace_conformant, Flag}</code></dt>
+%% <dd>Controls whether to behave as a namespace conformant XML parser,
+%% 'false' (default) to not otherwise 'true'.</dd>
+%% <dt><code>{validation, Flag}</code></dt>
+%% <dd>Controls whether to process as a validating XML parser:
+%% 'off' (default) no validation, or validation 'dtd' by DTD or 'schema'
+%% by XML Schema. 'false' and 'true' options are obsolete
+%% (i.e. they may be removed in a future release), if used 'false'
+%% equals 'off' and 'true' equals 'dtd'.</dd>
+%% <dt><code>{schemaLocation, [{Namespace,Link}|...]}</code></dt>
+%% <dd>Tells explicitly which XML Schema documents to use to validate
+%% the XML document. Used together with the
+%% <code>{validation,schema}</code> option.</dd>
+%% <dt><code>{quiet, Flag}</code></dt>
+%% <dd>Set to 'true' if xmerl should behave quietly and not output any
+%% information to standard output (default 'false').</dd>
+%% <dt><code>{doctype_DTD, DTD}</code></dt>
+%% <dd>Allows to specify DTD name when it isn't available in the XML
+%% document. This option has effect only together with
+%% <code>{validation,'dtd'</code> option.</dd>
+%% <dt><code>{xmlbase, Dir}</code></dt>
+%% <dd>XML Base directory. If using string/1 default is current directory.
+%% If using file/1 default is directory of given file.</dd>
+%% <dt><code>{encoding, Enc}</code></dt>
+%% <dd>Set default character set used (default UTF-8).
+%% This character set is used only if not explicitly given by the XML
+%% declaration. </dd>
+%% </dl>
+
+-module(xmerl_scan).
+-vsn('0.20').
+-date('03-09-16').
+
+%% main API
+-export([string/1, string/2,
+ file/1, file/2]).
+
+%% access functions for various states
+-export([user_state/1, user_state/2,
+ event_state/1, event_state/2,
+ hook_state/1, hook_state/2,
+ rules_state/1, rules_state/2,
+ fetch_state/1, fetch_state/2,
+ cont_state/1, cont_state/2]).
+
+%% helper functions. To xmerl_lib ??
+-export([accumulate_whitespace/4]).
+
+%-define(debug, 1).
+-include("xmerl.hrl"). % record def, macros
+-include("xmerl_internal.hrl").
+-include_lib("kernel/include/file.hrl").
+
+
+-define(fatal(Reason, S),
+ if
+ S#xmerl_scanner.quiet ->
+ ok;
+ true ->
+ ok=io:format("~p- fatal: ~p~n", [?LINE, Reason])
+ end,
+ fatal(Reason, S)).
+
+
+-define(ustate(U, S), S#xmerl_scanner{user_state = U}).
+
+
+%% Functions to access the various states
+
+%%% @spec user_state(S::global_state()) -> global_state()
+%%% @equiv user_state(UserState,S)
+user_state(#xmerl_scanner{user_state = S}) -> S.
+
+%%% @spec event_state(S::global_state()) -> global_state()
+%%% @equiv event_state(EventState,S)
+event_state(#xmerl_scanner{fun_states = #xmerl_fun_states{event = S}}) -> S.
+
+%%% @spec hook_state(S::global_state()) -> global_state()
+%%% @equiv hook_state(HookState,S)
+hook_state(#xmerl_scanner{fun_states = #xmerl_fun_states{hook = S}}) -> S.
+
+%%% @spec rules_state(S::global_state()) -> global_state()
+%%% @equiv rules_state(RulesState,S)
+rules_state(#xmerl_scanner{fun_states = #xmerl_fun_states{rules = S}}) -> S.
+
+%%% @spec fetch_state(S::global_state()) -> global_state()
+%%% @equiv fetch_state(FetchState,S)
+fetch_state(#xmerl_scanner{fun_states = #xmerl_fun_states{fetch = S}}) -> S.
+
+%%% @spec cont_state(S::global_state()) -> global_state()
+%%% @equiv cont_state(ContinuationState,S)
+cont_state(#xmerl_scanner{fun_states = #xmerl_fun_states{cont = S}}) -> S.
+
+
+%%%% Functions to modify the various states
+
+%%% @spec user_state(UserState, S::global_state()) -> global_state()
+%%% @doc For controlling the UserState, to be used in a user function.
+%%% See <a href="xmerl_examples.html">tutorial</a> on customization functions.
+user_state(X, S) ->
+ S#xmerl_scanner{user_state = X}.
+
+%%% @spec event_state(EventState, S::global_state()) -> global_state()
+%%% @doc For controlling the EventState, to be used in an event
+%%% function, and called at the beginning and at the end of a parsed entity.
+%%% See <a href="xmerl_examples.html">tutorial</a> on customization functions.
+event_state(X, S=#xmerl_scanner{fun_states = FS}) ->
+ FS1 = FS#xmerl_fun_states{event = X},
+ S#xmerl_scanner{fun_states = FS1}.
+
+%%% @spec hook_state(HookState, S::global_state()) -> global_state()
+%%% @doc For controlling the HookState, to be used in a hook
+%%% function, and called when the parser has parsed a complete entity.
+%%% See <a href="xmerl_examples.html">tutorial</a> on customization functions.
+hook_state(X, S=#xmerl_scanner{fun_states = FS}) ->
+ FS1 = FS#xmerl_fun_states{hook = X},
+ S#xmerl_scanner{fun_states = FS1}.
+
+%%% @spec rules_state(RulesState, S::global_state()) -> global_state()
+%%% @doc For controlling the RulesState, to be used in a rules
+%%% function, and called when the parser store scanner information in a rules
+%%% database.
+%%% See <a href="xmerl_examples.html">tutorial</a> on customization functions.
+rules_state(X, S=#xmerl_scanner{fun_states = FS}) ->
+ FS1 = FS#xmerl_fun_states{rules = X},
+ S#xmerl_scanner{fun_states = FS1}.
+
+%%% @spec fetch_state(FetchState, S::global_state()) -> global_state()
+%%% @doc For controlling the FetchState, to be used in a fetch
+%%% function, and called when the parser fetch an external resource (eg. a DTD).
+%%% See <a href="xmerl_examples.html">tutorial</a> on customization functions.
+fetch_state(X, S=#xmerl_scanner{fun_states = FS}) ->
+ FS1 = FS#xmerl_fun_states{fetch = X},
+ S#xmerl_scanner{fun_states = FS1}.
+
+%%% @spec cont_state(ContinuationState, S::global_state()) -> global_state()
+%%% @doc For controlling the ContinuationState, to be used in a continuation
+%%% function, and called when the parser encounters the end of the byte stream.
+%%% See <a href="xmerl_examples.html">tutorial</a> on customization functions.
+cont_state(X, S=#xmerl_scanner{fun_states = FS}) ->
+ FS1 = FS#xmerl_fun_states{cont = X},
+ S#xmerl_scanner{fun_states = FS1}.
+
+
+%% @spec file(Filename::string()) -> {xmlElement(),Rest}
+%% Rest = list()
+%% @equiv file(Filename, [])
+file(F) ->
+ file(F, []).
+
+%% @spec file(Filename::string(), Options::option_list()) -> {xmlElement(),Rest}
+%% Rest = list()
+%%% @doc Parse file containing an XML document
+file(F, Options) ->
+ ExtCharset=case lists:keysearch(encoding,1,Options) of
+ {value,{_,Val}} -> Val;
+ false -> undefined
+ end,
+ case int_file(F,Options,ExtCharset) of
+ {Res, Tail,S=#xmerl_scanner{close_fun=Close}} ->
+ Close(S), % for side effects only - final state is dropped
+ {Res,Tail};
+ {error, Reason} ->
+ {error, Reason}
+ end.
+
+int_file(F, Options,_ExtCharset) ->
+ %%io:format("int_file F=~p~n",[F]),
+ case file:read_file(F) of
+ {ok, Bin} ->
+ int_string(binary_to_list(Bin), Options, filename:dirname(F),F);
+ Error ->
+ Error
+ end.
+
+int_file_decl(F, Options,_ExtCharset) ->
+% io:format("int_file_decl F=~p~n",[F]),
+ case file:read_file(F) of
+ {ok, Bin} ->
+ int_string_decl(binary_to_list(Bin), Options, filename:dirname(F),F);
+ Error ->
+ Error
+ end.
+
+%% @spec string(Text::list()) -> {xmlElement(),Rest}
+%% Rest = list()
+%% @equiv string(Test, [])
+string(Str) ->
+ string(Str, []).
+
+%% @spec string(Text::list(),Options::option_list()) -> {xmlElement(),Rest}
+%% Rest = list()
+%%% @doc Parse string containing an XML document
+string(Str, Options) ->
+ {Res, Tail, S=#xmerl_scanner{close_fun = Close}} =
+ int_string(Str, Options,file_name_unknown),
+ Close(S), % for side effects only - final state is dropped
+ {Res,Tail}.
+
+int_string(Str, Options,FileName) ->
+ {ok, XMLBase} = file:get_cwd(),
+ int_string(Str, Options, XMLBase, FileName).
+
+int_string(Str, Options, XMLBase, FileName) ->
+ S0=initial_state0(Options,XMLBase),
+ S = S0#xmerl_scanner{filename=FileName},
+ %%io:format("int_string1, calling xmerl_lib:detect_charset~n",[]),
+
+ %% In case of no encoding attribute in document utf-8 is default, but
+ %% another character set may be detected with help of Byte Order Marker or
+ %% with help of the encoding of the first 4 bytes.
+ case xmerl_lib:detect_charset(S#xmerl_scanner.encoding,Str) of
+ {auto,'iso-10646-utf-1',Str2} ->
+ scan_document(Str2, S#xmerl_scanner{encoding="iso-10646-utf-1"});
+ {external,'iso-10646-utf-1',Str2} ->
+ scan_document(Str2, S#xmerl_scanner{encoding="iso-10646-utf-1"});
+ {undefined,undefined,Str2} -> %% no auto detection
+ scan_document(Str2, S);
+ {external,ExtCharset,Str2} ->
+ %% no auto detection, ExtCharset is an explicitly provided
+ %% 7 bit,8 bit or utf-8 encoding
+ scan_document(Str2, S#xmerl_scanner{encoding=atom_to_list(ExtCharset)})
+ end.
+
+int_string_decl(Str, Options, XMLBase, FileName) ->
+ S0=initial_state0(Options,XMLBase),
+ S = S0#xmerl_scanner{filename=FileName},
+ case xmerl_lib:detect_charset(S#xmerl_scanner.encoding,Str) of
+ {auto,'iso-10646-utf-1',Str2} ->
+ scan_decl(Str2, S#xmerl_scanner{encoding="iso-10646-utf-1"});
+ {external,'iso-10646-utf-1',Str2} ->
+ scan_decl(Str2, S#xmerl_scanner{encoding="iso-10646-utf-1"});
+ {undefined,undefined,Str2} ->
+ scan_decl(Str2, S);
+ {external,ExtCharset,Str2} ->
+ scan_decl(Str2, S#xmerl_scanner{encoding=atom_to_list(ExtCharset)})
+ end.
+
+
+
+initial_state0(Options,XMLBase) ->
+ CommonData = common_data(),
+ initial_state(Options, #xmerl_scanner{
+ event_fun = fun event/2,
+ hook_fun = fun hook/2,
+ acc_fun = fun acc/3,
+ fetch_fun = fun fetch/2,
+ close_fun = fun close/1,
+ continuation_fun = fun cont/3,
+ rules_read_fun = fun rules_read/3,
+ rules_write_fun = fun rules_write/4,
+ rules_delete_fun= fun rules_delete/3,
+ xmlbase = XMLBase,
+ common_data = CommonData
+ }).
+
+initial_state([{event_fun, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{event_fun = F});
+initial_state([{event_fun, F, ES}|T], S) ->
+ S1 = event_state(ES, S#xmerl_scanner{event_fun = F}),
+ initial_state(T, S1);
+initial_state([{acc_fun, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{acc_fun = F});
+initial_state([{hook_fun, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{hook_fun = F});
+initial_state([{hook_fun, F, HS}|T], S) ->
+ S1 = hook_state(HS, S#xmerl_scanner{hook_fun = F}),
+ initial_state(T, S1);
+initial_state([{close_fun, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{close_fun = F});
+initial_state([{fetch_fun, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{fetch_fun = F});
+initial_state([{fetch_fun, F, FS}|T], S) ->
+ S1 = fetch_state(FS, S#xmerl_scanner{fetch_fun = F}),
+ initial_state(T, S1);
+initial_state([{fetch_path, P}|T], S) ->
+ initial_state(T, S#xmerl_scanner{fetch_path = P});
+initial_state([{continuation_fun, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{continuation_fun = F});
+initial_state([{continuation_fun, F, CS}|T], S) ->
+ S1 = cont_state(CS, S#xmerl_scanner{continuation_fun = F}),
+ initial_state(T, S1);
+initial_state([{rules, R}|T], S) ->
+ initial_state(T, S#xmerl_scanner{rules = R,
+ keep_rules = true});
+initial_state([{rules, Read, Write, RS}|T], S) ->
+ S1 = rules_state(RS, S#xmerl_scanner{rules_read_fun = Read,
+ rules_write_fun = Write,
+ keep_rules = true}),
+ initial_state(T, S1);
+initial_state([{user_state, F}|T], S) ->
+ initial_state(T, S#xmerl_scanner{user_state = F});
+initial_state([{space, L}|T], S) ->
+ initial_state(T, S#xmerl_scanner{space = L});
+initial_state([{line, L}|T], S) ->
+ initial_state(T, S#xmerl_scanner{line = L});
+initial_state([{namespace_conformant, F}|T], S) when F==true; F==false ->
+ initial_state(T, S#xmerl_scanner{namespace_conformant = F});
+initial_state([{validation, F}|T], S)
+ when F==off; F==dtd; F==schema; F==true; F==false ->
+ initial_state(T, S#xmerl_scanner{validation = validation_value(F)});
+initial_state([{schemaLocation, SL}|T], S) when is_list(SL) ->
+ initial_state(T, S#xmerl_scanner{schemaLocation=SL});
+initial_state([{quiet, F}|T], S) when F==true; F==false ->
+ initial_state(T, S#xmerl_scanner{quiet = F});
+initial_state([{doctype_DTD,DTD}|T], S) ->
+ initial_state(T,S#xmerl_scanner{doctype_DTD = DTD});
+initial_state([{text_decl,Bool}|T], S) ->
+ initial_state(T,S#xmerl_scanner{text_decl=Bool});
+initial_state([{environment,Env}|T], S) ->
+ initial_state(T,S#xmerl_scanner{environment=Env});
+initial_state([{xmlbase, D}|T], S) ->
+ initial_state(T, S#xmerl_scanner{xmlbase = D});
+initial_state([{encoding, Enc}|T], S) ->
+ initial_state(T, S#xmerl_scanner{encoding = Enc});
+initial_state([], S=#xmerl_scanner{rules = undefined}) ->
+ Tab = ets:new(rules, [set, public]),
+ S#xmerl_scanner{rules = Tab};
+initial_state([], S) ->
+ S.
+
+validation_value(true) ->
+ dtd;
+validation_value(false) ->
+ off;
+validation_value(F) ->
+ F.
+
+%% Used for compacting (some) indentations.
+%% See also fast_accumulate_whitespace().
+common_data() ->
+ {comdata(lists:duplicate(60, $\s), []),
+ comdata(lists:duplicate(15, $\t), []),
+ "\n"}.
+
+comdata([], CD)->
+ list_to_tuple(CD);
+comdata([_ | T]=L, CD) ->
+ comdata(T, [[$\n | L] | CD]).
+
+%%% -----------------------------------------------------
+%%% Default modifier functions
+
+%%% Hooks:
+%%% - {element, Line, Name, Attrs, Content}
+%%% - {processing_instruction, Line, Data}
+
+hook(X, State) ->
+ {X, State}.
+
+%%% Events:
+%%%
+%%% #xmerl_event{event : started | ended,
+%%% line : integer(),
+%%% col : integer(),
+%%% data}
+%%%
+%%% Data Events
+%%% document started, ended
+%%% #xmlElement started, ended
+%%% #xmlAttribute ended
+%%% #xmlPI ended
+%%% #xmlComment ended
+%%% #xmlText ended
+event(_X, S) ->
+ S.
+
+%% The acc/3 function can return either {Acc�, S'} or {Acc', Pos', S'},
+%% where Pos' can be derived from X#xmlElement.pos, X#xmlText.pos, or
+%% X#xmlAttribute.pos (whichever is the current object type.)
+%% The acc/3 function is not allowed to redefine the type of object
+%% being defined, but _is_ allowed to either ignore it or split it
+%% into multiple objects (in which case {Acc',Pos',S'} should be returned.)
+%% If {Acc',S'} is returned, Pos will be incremented by 1 by default.
+%% Below is an example of an acceptable operation
+acc(X = #xmlText{value = Text}, Acc, S) ->
+ {[X#xmlText{value = Text}|Acc], S};
+acc(X, Acc, S) ->
+ {[X|Acc], S}.
+
+fetch({system, URI}, S) ->
+ fetch_URI(URI, S);
+fetch({public, _PublicID, URI}, S) ->
+ fetch_URI(URI, S).
+
+%%% Always assume an external resource can be found locally! Thus
+%%% don't bother fetching with e.g. HTTP. Returns the path where the
+%%% resource is found. The path to the external resource is given by
+%%% URI directly or the option fetch_path (additional paths) or
+%%% directory (base path to external resource)
+fetch_URI(URI, S) ->
+ %% assume URI is a filename
+ Split = filename:split(URI),
+ Filename = fun([])->[];(X)->lists:last(X) end (Split),
+ Fullname =
+ case Split of %% how about Windows systems?
+ ["file:"|Name]-> %% absolute path, see RFC2396 sect 3
+ %% file:/dtd_name
+ filename:join(["/"|Name]);
+ ["/"|Rest] when Rest /= [] ->
+ %% absolute path name
+ URI;
+ ["http:"|_Rest] ->
+ {http,URI};
+ [] -> %% empty systemliteral
+ [];
+ _ ->
+ filename:join(S#xmerl_scanner.xmlbase, URI)
+ end,
+ Path = path_locate(S#xmerl_scanner.fetch_path, Filename, Fullname),
+ ?dbg("fetch(~p) -> {file, ~p}.~n", [URI, Path]),
+ {ok, Path, S}.
+
+path_locate(_, _, {http,_}=URI) ->
+ URI;
+path_locate(_, _, []) ->
+ [];
+path_locate([Dir|Dirs], FN, FullName) ->
+ F = filename:join(Dir, FN),
+ case file:read_file_info(F) of
+ {ok, #file_info{type = regular}} ->
+ {file,F};
+ _ ->
+ path_locate(Dirs, FN, FullName)
+ end;
+path_locate([], _FN, FullName) ->
+ {file,FullName}.
+
+
+cont(_F, Exception, US) ->
+ Exception(US).
+
+close(S) ->
+ S.
+
+
+%%% -----------------------------------------------------
+%%% Scanner
+
+%%% [1] document ::= prolog element Misc*
+scan_document(Str0, S=#xmerl_scanner{event_fun = Event,
+ line = L, col = C,
+ environment=Env,
+ encoding=Charset,
+ validation=ValidateResult}) ->
+ S1 = Event(#xmerl_event{event = started,
+ line = L,
+ col = C,
+ data = document}, S),
+
+ %% Transform to given character set.
+ %% Note that if another character set is given in the encoding
+ %% attribute in a XML declaration that one will be used later
+ Str=if
+ Charset == "utf-8" ->
+ Str0;
+ Charset=/=undefined -> % Default character set is UTF-8
+ xmerl_ucs:to_unicode(Str0,list_to_atom(Charset));
+ true -> %% Charset is undefined if no external input is
+ %% given, and no auto detection of character
+ %% encoding was made.
+ Str0
+ end,
+%% M1 = erlang:memory(),
+%% io:format("Memory status before prolog: ~p~n",[M1]),
+ {T1, S2} = scan_prolog(Str, S1, _StartPos = 1),
+%% M2 = erlang:memory(),
+%% io:format("Memory status after prolog: ~p~n",[M2]),
+ %%io:format("scan_document 2, prolog parsed~n",[]),
+ T2 = scan_mandatory("<",T1,1,S2,expected_element_start_tag),
+%% M3 = erlang:memory(),
+%% io:format("Memory status before element: ~p~n",[M3]),
+ {Res, T3, S3} =scan_element(T2,S2,_StartPos = 1),
+%% M4 = erlang:memory(),
+%% io:format("Memory status after element: ~p~n",[M4]),
+ {Tail, S4}=scan_misc(T3, S3, _StartPos = 1),
+%% M5 = erlang:memory(),
+%% io:format("Memory status after misc: ~p~n",[M5]),
+
+ S5 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S4#xmerl_scanner.line,
+ col = S4#xmerl_scanner.col,
+ data = document}, S4),
+
+ {Res2,S6} = case validation_mode(ValidateResult) of
+ off ->
+ {Res,cleanup(S5)};
+ dtd when Env == element; Env == prolog ->
+ check_decl2(S5),
+ case xmerl_validate:validate(S5,Res) of
+ {'EXIT',{error,Reason}} ->
+ S5b=cleanup(S5),
+ ?fatal({failed_validation,Reason}, S5b);
+ {'EXIT',Reason} ->
+ S5b=cleanup(S5),
+ ?fatal({failed_validation,Reason}, S5b);
+ {error,Reason} ->
+ S5b=cleanup(S5),
+ ?fatal({failed_validation,Reason}, S5b);
+ {error,Reason,_Next} ->
+ S5b=cleanup(S5),
+ ?fatal({failed_validation,Reason}, S5b);
+ _XML ->
+ {Res,cleanup(S5)}
+ end;
+ schema ->
+ case schemaLocations(Res,S5) of
+ {ok,Schemas} ->
+ cleanup(S5),
+ %%io:format("Schemas: ~p~nRes: ~p~ninhertih_options(S): ~p~n",
+ %% [Schemas,Res,inherit_options(S5)]),
+ XSDRes = xmerl_xsd:process_validate(Schemas,Res,
+ inherit_options(S5)),
+ handle_schema_result(XSDRes,S5);
+ _ ->
+ {Res,cleanup(S5)}
+ end;
+ _ ->
+ {Res,cleanup(S5)}
+ end,
+
+ {Res2, Tail, S6}.
+
+
+scan_decl(Str, S=#xmerl_scanner{event_fun = Event,
+ line = L, col = C,
+ environment=_Env,
+ encoding=_Charset,
+ validation=_ValidateResult}) ->
+ S1 = Event(#xmerl_event{event = started,
+ line = L,
+ col = C,
+ data = document}, S),
+
+ case scan_prolog(Str, S1, _StartPos = 1) of
+ {T2="<"++_, S2} ->
+ {{S2#xmerl_scanner.user_state,T2},[],S2};
+ {[], S2}->
+ {[],[],S2};
+ {T2, S2} ->
+ {_,_,S3} = scan_content(T2,S2,[],_Attrs=[],S2#xmerl_scanner.space,
+ _Lang=[],_Parents=[],#xmlNamespace{}),
+ {T2,[],S3}
+ end.
+
+
+%%% [22] Prolog
+%%% prolog ::= XMLDecl? Misc* (doctypedecl Misc*)?
+%%%
+%% empty text declarations are handled by the first function clause.
+scan_prolog([], S=#xmerl_scanner{continuation_fun = F}, Pos) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_prolog(MoreBytes, S1, Pos) end,
+ fun(S1) -> {[], S1} end,
+ S);
+scan_prolog("<?xml"++T,S0=#xmerl_scanner{encoding=Charset0,col=Col,line=L},Pos)
+ when ?whitespace(hd(T)) ->
+ {Charset,T3, S3}=
+ if
+ Col==1,L==1,S0#xmerl_scanner.text_decl==true ->
+ ?dbg("prolog(\"<?xml\")~n", []),
+ ?bump_col(5),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {Decl,T2, S2}=scan_text_decl(T1,S1),
+ Encoding=Decl#xmlDecl.encoding,
+ {Encoding,T2, S2#xmerl_scanner{encoding=Encoding}};
+ Col==1,L==1 ->
+ ?dbg("prolog(\"<?xml\")~n", []),
+ ?bump_col(5),
+ {Decl,T2, S2}=scan_xml_decl(T, S),
+ Encoding=Decl#xmlDecl.encoding,
+ {Encoding,T2, S2#xmerl_scanner{encoding=Encoding}};
+ true ->
+ ?fatal({xml_declaration_must_be_first_in_doc,Col,L},S0)
+ end,
+ %% Charset0 is either (1) 'iso-10646-utf-1' (transformation by
+ %% auto detection), (2) undefined (no auto detection and no
+ %% external encoding), (3) any other encoding format that must be
+ %% conformant to the internal explicitly given encoding. The two
+ %% former cases implies that the explicit internal encoding
+ %% (Charset) may be different from Charset0.
+
+ %% Now transform to declared character set.
+ if
+ Charset==Charset0 -> % Document already transformed to this charset!
+ scan_prolog(T3, S3, Pos);
+ Charset0=/=undefined ->
+ %% For example may an external entity
+ %% have the BOM for utf-16 and the internal
+ %% explicit encoding='utf-16', then it will be auto
+ %% detected and transformed, Charset0 will be
+ %% 'iso-10646-utf-1', and Charset will be 'utf-16', all
+ %% legal.
+ %%
+ scan_prolog(T3,S3#xmerl_scanner{encoding=Charset0},Pos);
+ Charset == "utf-8" ->
+ scan_prolog(T3, S3, Pos);
+ Charset=/=undefined -> % Document not previously transformed
+ T4=xmerl_ucs:to_unicode(T3,list_to_atom(Charset)),
+ scan_prolog(T4, S3, Pos);
+ true -> % No encoding info given
+ scan_prolog(T3, S3, Pos)
+ end;
+scan_prolog("<!DOCTYPE" ++ T, S0=#xmerl_scanner{environment=prolog,
+ encoding=_Charset}, Pos) ->
+ ?dbg("prolog(\"<!DOCTYPE\")~n", []),
+ ?bump_col(9),
+ %% If no known character set assume it is UTF-8
+ T1=if
+ %% Charset==undefined -> xmerl_ucs:to_unicode(T,'utf-8');
+ true -> T
+ end,
+ {T2, S1} = scan_doctype(T1, S),
+ scan_misc(T2, S1, Pos);
+scan_prolog(Str="%"++_T,S=#xmerl_scanner{environment={external,_}},_Pos) ->
+ scan_ext_subset(Str,S);
+scan_prolog(Str, S0 = #xmerl_scanner{user_state=_US,encoding=_Charset},Pos) ->
+ ?dbg("prolog(\"<\")~n", []),
+
+ %% Check for Comments, PI before possible DOCTYPE declaration
+ ?bump_col(1),
+ %% If no known character set assume it is UTF-8
+ T=if
+%% Charset==undefined -> xmerl_ucs:to_unicode(Str,'utf-8');
+ true -> Str
+ end,
+ {T1, S1}=scan_misc(T, S, Pos),
+ scan_prolog2(T1,S1,Pos).
+
+
+
+scan_prolog2([], S=#xmerl_scanner{continuation_fun = F}, Pos) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_prolog2(MoreBytes, S1, Pos) end,
+ fun(S1) -> {[], S1} end,
+ S);
+scan_prolog2("<!DOCTYPE" ++ T, S0=#xmerl_scanner{environment=prolog}, Pos) ->
+ ?dbg("prolog(\"<!DOCTYPE\")~n", []),
+ ?bump_col(9),
+ {T1, S1} = scan_doctype(T, S),
+ scan_misc(T1, S1, Pos);
+scan_prolog2(Str = "<!" ++ _, S, _Pos) ->
+ ?dbg("prolog(\"<!\")~n", []),
+ %% In e.g. a DTD, we jump directly to markup declarations
+ scan_ext_subset(Str, S);
+scan_prolog2(Str, S0 = #xmerl_scanner{user_state=_US},Pos) ->
+ ?dbg("prolog(\"<\")~n", []),
+
+ %% Here we consider the DTD provided by doctype_DTD option,
+ S1 =
+ case S0 of
+ #xmerl_scanner{validation=dtd,doctype_DTD=DTD} when is_list(DTD) ->
+ S=fetch_DTD(undefined,S0),
+ check_decl(S),
+ S;
+ _ -> S0
+ end,
+ %% Check for more Comments and PI after DOCTYPE declaration
+% ?bump_col(1),
+ scan_misc(Str, S1, Pos).
+
+
+
+
+%%% [27] Misc ::= Comment | PI | S
+%% Note:
+%% - Neither of Comment and PI are returned in the resulting parsed
+%% structure.
+%% - scan_misc/3 implements Misc* as that is how the rule is always used
+scan_misc([], S=#xmerl_scanner{continuation_fun = F}, Pos) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_misc(MoreBytes, S1, Pos) end,
+ fun(S1) -> {[], S1} end,
+ S);
+scan_misc("<!--" ++ T, S0, Pos) -> % Comment
+ ?bump_col(4),
+ {_, T1, S1} = scan_comment(T, S, Pos, _Parents = [], _Lang = []),
+ scan_misc(T1,S1,Pos);
+scan_misc("<?" ++ T, S0, Pos) -> % PI
+ ?dbg("prolog(\"<?\")~n", []),
+ ?bump_col(2),
+ {_PI, T1, S1} = scan_pi(T, S, Pos),
+ scan_misc(T1,S1,Pos);
+scan_misc(T=[H|_T], S, Pos) when ?whitespace(H) ->
+ ?dbg("prolog(whitespace)~n", []),
+ {_,T1,S1}=strip(T,S),
+ scan_misc(T1,S1,Pos);
+scan_misc(T,S,_Pos) ->
+ {T,S}.
+
+
+cleanup(S=#xmerl_scanner{keep_rules = false,
+ rules = Rules}) ->
+ ets:delete(Rules),
+ S#xmerl_scanner{rules = undefined};
+cleanup(S) ->
+ S.
+
+%%% Prolog and Document Type Declaration XML 1.0 Section 2.8
+%% [23] XMLDecl ::= '<?xml' VersionInfo EncodingDecl? SDDecl? S? '?>'
+%% [24] VersionInfo ::= S 'version' Eq ("'" VersionNum "'" | '"' VersionNum '"')
+scan_xml_decl(T, S) ->
+ %% VersionInfo [24] is mandatory
+ {_,T1,S1} = mandatory_strip(T,S),
+ {T2,S2} =
+ case T1 of
+ "version" ++ _T2 ->
+ {_T2,S1#xmerl_scanner{col=S1#xmerl_scanner.col+7}};
+ _ -> ?fatal(expected_version_attribute,S1)
+ end,
+ {T3, S3} = scan_eq(T2, S2),
+ {Vsn, T4, S4} = scan_xml_vsn(T3, S3),
+ Attr = #xmlAttribute{name = version,
+ parents = [{xml, _XMLPos = 1}],
+ value = Vsn},
+ scan_xml_decl(T4, S4, #xmlDecl{attributes = [Attr]}).
+
+scan_xml_decl([], S=#xmerl_scanner{continuation_fun = F}, Decl) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_xml_decl(MoreBytes, S1, Decl) end,
+ fun(S1) -> {[], [], S1} end,
+ S);
+scan_xml_decl("?>" ++ T, S0, Decl) ->
+ ?bump_col(2),
+ return_xml_decl(T,S,Decl);
+scan_xml_decl(T,S=#xmerl_scanner{event_fun = _Event},Decl) when ?whitespace(hd(T)) ->
+ {_,T1,S1}=mandatory_strip(T,S),
+ scan_xml_decl2(T1,S1,Decl);
+scan_xml_decl(_T,S=#xmerl_scanner{event_fun = _Event},_Decl) ->
+ ?fatal(preformat([expected,one,'of:'],['?>',whitespace_character],","),S).
+
+scan_xml_decl2("?>" ++ T, S0,Decl) ->
+ ?bump_col(2),
+ return_xml_decl(T,S,Decl);
+scan_xml_decl2("encoding" ++ T, S0 = #xmerl_scanner{event_fun = Event},
+ Decl0 = #xmlDecl{attributes = Attrs}) ->
+ %% [80] EncodingDecl
+ ?bump_col(8),
+ {T1, S1} = scan_eq(T, S),
+ {EncName, T2, S2} = scan_enc_name(T1, S1),
+ LowEncName=xmerl_lib:to_lower(EncName),
+ Attr = #xmlAttribute{name = encoding,
+ parents = [{xml, _XMLPos = 1}],
+ value = LowEncName},
+ Decl = Decl0#xmlDecl{encoding = LowEncName,
+ attributes = [Attr|Attrs]},
+ S3 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S0#xmerl_scanner.line,
+ col = S0#xmerl_scanner.col,
+ data = Attr}, S2),
+ case T2 of
+ "?>" ++ _T3 ->
+ scan_xml_decl3(T2,S3,Decl);
+ _ ->
+ {_,T3,S4} = mandatory_strip(T2,S3),
+ scan_xml_decl3(T3, S4, Decl)
+ end;
+scan_xml_decl2(T="standalone" ++ _T,S,Decl) ->
+ scan_xml_decl3(T,S,Decl);
+scan_xml_decl2(_BadString,S,_Decl) ->
+ ?fatal(preformat([expected,one,'of:'],['?>',standalone,encoding],","),S).
+% ?fatal(lists:flatten(io_lib:format("~s ~s ~s: ~s, ~s, ~s",[expected,one,'of','?>',standalone,encoding])),S).
+% ?fatal({expected_one_of,"?>",standalone,encoding},S).
+
+scan_xml_decl3("?>" ++ T, S0,Decl) ->
+ ?bump_col(2),
+ return_xml_decl(T,S,Decl);
+scan_xml_decl3("standalone" ++ T,S0 = #xmerl_scanner{event_fun = Event},
+ Decl0 = #xmlDecl{attributes = Attrs}) ->
+ %% [32] SDDecl
+ ?bump_col(10),
+ {T1, S1} = scan_eq(T, S),
+ {StValue,T2,S2}=scan_standalone_value(T1,S1),
+ Attr = #xmlAttribute{name = standalone,
+ parents = [{xml, _XMLPos = 1}],
+ value = StValue},
+ Decl = Decl0#xmlDecl{standalone = StValue,
+ attributes = [Attr|Attrs]},
+ S3 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S0#xmerl_scanner.line,
+ col = S0#xmerl_scanner.col,
+ data = Attr}, S2),
+ {_,T3,S4} = strip(T2,S3),
+ T4 = scan_mandatory("?>",T3,2,S4,expected_xml_decl_endtag),
+%% "?>" ++ T4 = T3,
+ return_xml_decl(T4, S4#xmerl_scanner{col=S4#xmerl_scanner.col+2}, Decl).
+
+
+return_xml_decl(T,S=#xmerl_scanner{hook_fun = _Hook,
+ event_fun = Event},
+ Decl0 = #xmlDecl{attributes = Attrs}) ->
+ ?strip1,
+ Decl = Decl0#xmlDecl{attributes = lists:reverse(Attrs)},
+ S2 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S#xmerl_scanner.line,
+ col = S#xmerl_scanner.col,
+ data = Decl}, S1),
+%% {Ret, S3} = Hook(Decl, S2),
+%% {Ret, T1, S3}.
+ {Decl, T1, S2}.
+
+
+scan_standalone_value("'yes'" ++T,S0)->
+ ?bump_col(5),
+ {'yes',T,S#xmerl_scanner{standalone=yes}};
+scan_standalone_value("\"yes\"" ++T,S0)->
+ ?bump_col(5),
+ {'yes',T,S#xmerl_scanner{standalone=yes}};
+scan_standalone_value("'no'" ++T,S0) ->
+ ?bump_col(4),
+ {'no',T,S};
+scan_standalone_value("\"no\"" ++T,S0) ->
+ ?bump_col(4),
+ {'no',T,S}.
+
+%%%
+%%% Text declaration XML 1.0 section 4.3.1
+%%% [77] TextDecl ::= '<?xml' VersionInfo? EncodingDecl S? '?>'
+scan_text_decl(T,S=#xmerl_scanner{event_fun = Event}) ->
+ {#xmlDecl{attributes=Attrs}=Decl0,T1,S1} = scan_optional_version(T,S),
+ T2 =
+ case T1 of
+ "encoding" ++ _T2 -> _T2;
+ _ ->
+ ?fatal(expected_encoding_attribute,S1)
+ end,
+ S2 = S1#xmerl_scanner{col = S1#xmerl_scanner.col + 8},
+ {T3, S3} = scan_eq(T2, S2),
+ {EncName, T4, S4} = scan_enc_name(T3, S3),
+ LowEncName=xmerl_lib:to_lower(EncName),
+ ?strip5,
+ Attr = #xmlAttribute{name = encoding,
+ parents = [{xml,1}],
+ value = LowEncName},
+ Decl = Decl0#xmlDecl{encoding = LowEncName,
+ attributes = [Attr|Attrs]},
+ S6=#xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S5#xmerl_scanner.line,
+ col = S5#xmerl_scanner.col,
+ data = Attr}, S5),
+ scan_text_decl(T5,S6,Decl).
+
+scan_text_decl("?>"++T,S0 = #xmerl_scanner{hook_fun = _Hook,
+ event_fun = Event},
+ Decl0 = #xmlDecl{attributes = Attrs}) ->
+ ?bump_col(2),
+ ?strip1,
+ Decl = Decl0#xmlDecl{attributes = lists:reverse(Attrs)},
+ S2 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S0#xmerl_scanner.line,
+ col = S0#xmerl_scanner.col,
+ data = Decl}, S1),
+%% {Ret, S3} = Hook(Decl, S2),
+%% {Ret, T1, S3};
+ {Decl, T1, S2};
+scan_text_decl([H|_T],S,_) ->
+ ?fatal({unexpected_character_in_text_declaration,H},S).
+
+scan_optional_version("version"++T,S0) ->
+ ?bump_col(7),
+ ?strip1,
+ {T2, S2} = scan_eq(T1, S1),
+ {Vsn, T3, S3} = scan_xml_vsn(T2, S2),
+ {_,T4,S4} = mandatory_strip(T3,S3),
+ Attr = #xmlAttribute{name = version,parents = [{xml,1}],value = Vsn},
+ {#xmlDecl{attributes=[Attr]},T4,S4};
+scan_optional_version(T,S) ->
+ {#xmlDecl{attributes=[]},T,S}.
+
+
+
+%%%%%%% [81] EncName
+scan_enc_name([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_enc_name(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(expected_encoding_name, S1) end,
+ S);
+scan_enc_name([H|T], S0) when H >= $"; H =< $' ->
+ ?bump_col(1),
+ scan_enc_name(T, S, H, []).
+
+
+scan_enc_name([], S=#xmerl_scanner{continuation_fun = F}, Delim, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_enc_name(MoreBytes, S1, Delim, Acc) end,
+ fun(S1) -> ?fatal(expected_encoding_name, S1) end,
+ S);
+scan_enc_name([H|T], S0, Delim, Acc) when H >= $a, H =< $z ->
+ ?bump_col(1),
+ scan_enc_name2(T, S, Delim, [H|Acc]);
+scan_enc_name([H|T], S0, Delim, Acc) when H >= $A, H =< $Z ->
+ ?bump_col(1),
+ scan_enc_name2(T, S, Delim, [H|Acc]);
+scan_enc_name([H|_T],S,_Delim,_Acc) ->
+ ?fatal({error,{unexpected_character_in_Enc_Name,H}},S).
+
+scan_enc_name2([], S=#xmerl_scanner{continuation_fun = F}, Delim, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_enc_name2(MoreBytes, S1, Delim, Acc) end,
+ fun(S1) -> ?fatal(expected_encoding_name, S1) end,
+ S);
+scan_enc_name2([H|T], S0, H, Acc) ->
+ ?bump_col(1),
+ {lists:reverse(Acc), T, S};
+scan_enc_name2([H|T], S0, Delim, Acc) when H >= $a, H =< $z ->
+ ?bump_col(1),
+ scan_enc_name2(T, S, Delim, [H|Acc]);
+scan_enc_name2([H|T], S0, Delim, Acc) when H >= $A, H =< $Z ->
+ ?bump_col(1),
+ scan_enc_name2(T, S, Delim, [H|Acc]);
+scan_enc_name2([H|T], S0, Delim, Acc) when H >= $0, H =< $9 ->
+ ?bump_col(1),
+ scan_enc_name2(T, S, Delim, [H|Acc]);
+scan_enc_name2([H|T], S0, Delim, Acc) when H == $.; H == $_; H == $- ->
+ ?bump_col(1),
+ scan_enc_name2(T, S, Delim, [H|Acc]).
+
+
+%%%%%%% [26] VersionNum
+%%% VersionNum ::= ([a-zA-Z0-9_.:] | '-')+
+scan_xml_vsn([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_xml_vsn(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_xml_vsn([H|T], S) when H==$"; H==$'->
+ xml_vsn(T, S#xmerl_scanner{col = S#xmerl_scanner.col+1}, H, []).
+
+xml_vsn([], S=#xmerl_scanner{continuation_fun = F}, Delim, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> xml_vsn(MoreBytes, S1, Delim, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+xml_vsn([H|T], S=#xmerl_scanner{col = C}, H, Acc) ->
+ {lists:reverse(Acc), T, S#xmerl_scanner{col = C+1}};
+xml_vsn([H|T], S=#xmerl_scanner{col = C},Delim, Acc) when H >= $a, H =< $z ->
+ xml_vsn(T, S#xmerl_scanner{col = C+1}, Delim, [H|Acc]);
+xml_vsn([H|T], S=#xmerl_scanner{col = C},Delim, Acc) when H >= $A, H =< $Z ->
+ xml_vsn(T, S#xmerl_scanner{col = C+1}, Delim, [H|Acc]);
+xml_vsn([H|T], S=#xmerl_scanner{col = C},Delim, Acc) when H >= $0, H =< $9 ->
+ xml_vsn(T, S#xmerl_scanner{col = C+1}, Delim, [H|Acc]);
+xml_vsn([H|T], S=#xmerl_scanner{col = C}, Delim, Acc) ->
+ case lists:member(H, "_.:-") of
+ true ->
+ xml_vsn(T, S#xmerl_scanner{col = C+1}, Delim, [H|Acc]);
+ false ->
+ ?fatal({invalid_vsn_char, H}, S)
+ end.
+
+%%%%%%% [16] PI ::= '<?' PITarget (S (Char* - (Char* '?>' Char*)))? '?>'
+
+scan_pi([], S=#xmerl_scanner{continuation_fun = F}, Pos) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_pi(MoreBytes, S1, Pos) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_pi(Str = [H1,H2,H3 | T],S0=#xmerl_scanner{line = L, col = C}, Pos)
+ when H1==$x;H1==$X ->
+ %% names beginning with [xX][mM][lL] are reserved for future use.
+ ?bump_col(3),
+ if
+ ((H2==$m) or (H2==$M)) and
+ ((H3==$l) or (H3==$L)) ->
+ scan_wellknown_pi(T,S,Pos);
+ true ->
+ {Target, _NamespaceInfo, T1, S1} = scan_name(Str, S),
+ scan_pi(T1, S1, Target, L, C, Pos, [])
+ end;
+scan_pi(Str, S=#xmerl_scanner{line = L, col = C}, Pos) ->
+ {Target, _NamespaceInfo, T1, S1} = scan_name(Str, S),
+ scan_pi(T1, S1, Target, L, C, Pos,[]).
+
+
+%%% More info on xml-stylesheet can be found at:
+%%% "Associating Style Sheets with XML documents", Version 1.0,
+%%% W3C Recommendation 29 June 1999 (http://www.w3.org/TR/xml-stylesheet/)
+scan_wellknown_pi("-stylesheet"++T, S0=#xmerl_scanner{line=L,col=C},Pos) ->
+ ?dbg("prolog(\"<?xml-stylesheet\")~n", []),
+ ?bump_col(16),
+ scan_pi(T, S, "xml-stylesheet",L,C,Pos,[]);
+scan_wellknown_pi(Str,S,_Pos) ->
+ ?fatal({invalid_target_name, lists:sublist(Str, 1, 10)}, S).
+
+
+
+scan_pi([], S=#xmerl_scanner{continuation_fun = F}, Target,L, C, Pos, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_pi(MoreBytes, S1, Target, L, C, Pos, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_pi("?>" ++ T, S0 = #xmerl_scanner{hook_fun = Hook,
+ event_fun = Event},
+ Target, L, C, Pos, Acc) ->
+ ?bump_col(2),
+ PI = #xmlPI{name = Target,
+ pos = Pos,
+ value = lists:reverse(Acc)},
+ S1 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = L,
+ col = C,
+ data = PI}, S),
+ {Ret, S2} = Hook(PI, S1),
+ {Ret, T, S2};
+scan_pi([H|T], S, Target, L, C, Pos, Acc) when ?whitespace(H) ->
+ ?strip1,
+ scan_pi2(T1, S1, Target, L, C, Pos, Acc);
+scan_pi([H|_T],S,_Target, _L, _C, _Pos, _Acc) ->
+ ?fatal({expected_whitespace_OR_end_of_PI,{char,H}}, S).
+
+scan_pi2([], S=#xmerl_scanner{continuation_fun = F}, Target,L, C, Pos, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_pi2(MoreBytes, S1, Target, L, C, Pos, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_pi2("?>" ++ T, S0 = #xmerl_scanner{hook_fun = Hook,
+ event_fun = Event},
+ Target, L, C, Pos, Acc) ->
+ ?bump_col(2),
+ PI = #xmlPI{name = Target,
+ pos = Pos,
+ value = lists:reverse(Acc)},
+ S1 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = L,
+ col = C,
+ data = PI}, S),
+ {Ret, S2} = Hook(PI, S1),
+ {Ret, T, S2};
+scan_pi2(Str, S0, Target, L, C, Pos, Acc) ->
+ ?bump_col(1),
+ {Ch,T} = wfc_legal_char(Str,S),
+ scan_pi2(T, S, Target, L, C, Pos, [Ch|Acc]).
+
+
+
+%% [28] doctypedecl ::=
+%% '<!DOCTYPE' S Name (S ExternalID)? S? ('[' intSubset ']' S?)? '>'
+scan_doctype([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_doctype(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_doctype(T, S) ->
+ {_,T1,S1} = mandatory_strip(T,S),
+ {DTName, _NamespaceInfo, T2, S2} = scan_name(T1, S1),
+ ?strip3,
+ scan_doctype1(T3, S3#xmerl_scanner{doctype_name = DTName}).
+
+
+%% [75] ExternalID ::= 'SYSTEM' S SystemLiteral
+%% | 'PUBLIC' S PubidLiteral S SystemLiteral
+scan_doctype1([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_doctype1(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_doctype1("PUBLIC" ++ T, S0) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {PIDL, T2, S2} = scan_pubid_literal(T1, S1),
+ {_,T3,S3} = mandatory_strip(T2,S2),
+ {SL, T4, S4} = scan_system_literal(T3, S3),
+ ?strip5,
+ scan_doctype2(T5, S5, {public, PIDL, SL});
+scan_doctype1("SYSTEM" ++ T, S0) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {SL, T2, S2} = scan_system_literal(T1, S1),
+ ?strip3,
+ scan_doctype2(T3, S3, {system, SL});
+scan_doctype1(T, S) ->
+ scan_doctype2(T, S, undefined).
+
+
+scan_doctype2([], S=#xmerl_scanner{continuation_fun = F},DTD) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_doctype2(MoreBytes, S1, DTD) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_doctype2("[" ++ T, S0, DTD) ->
+ ?bump_col(1),
+ ?strip1,
+ scan_doctype3(T1, S1, DTD);
+scan_doctype2(">" ++ T, S0, DTD) ->
+ ?bump_col(1),
+ ?strip1,
+ S2 = fetch_DTD(DTD, S1),
+ check_decl(S2),
+ {T1, S2};
+scan_doctype2(_T,S,_DTD) ->
+ ?fatal(expected_end_of_DOCTYPE_declaration, S).
+
+%% [28a] DeclSep ::= PEReference | S
+%% [28b] intSubset ::= (markupdecl | DeclSep)*
+scan_doctype3([], S=#xmerl_scanner{continuation_fun = F},DTD) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_doctype3(MoreBytes, S1,DTD) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_doctype3("%" ++ T, S0, DTD) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ?strip2,
+ case expand_pe_reference(PERefName, S2,as_PE) of
+ {system, _} = Name ->
+ S3 = fetch_DTD(Name, S2),
+ check_decl(S3),
+ scan_doctype3(T2, S3, DTD);
+ {public, _} = Name ->
+ S3 = fetch_DTD(Name, S2),
+ check_decl(S3),
+ scan_doctype3(T2, S3, DTD);
+ {public, _, _} = Name ->
+ S3 = fetch_DTD(Name, S2),
+ check_decl(S3),
+ scan_doctype3(T2, S3, DTD);
+ ExpRef when is_list(ExpRef) -> % Space added, see Section 4.4.8
+ {_,T3,S3} = strip(ExpRef++T2,S2),
+ scan_doctype3(T3,S3,DTD)
+ end;
+scan_doctype3("]" ++ T, S0, DTD) ->
+ ?bump_col(1),
+ ?strip1,
+ S2 = fetch_DTD(DTD, S1),
+ check_decl(S2),
+ T2 = scan_mandatory(">",T1,1,S2,expected_doctype_end_tag),
+%% ">" ++ T2 = T1,
+ {T2, S2};
+scan_doctype3(T, S, DTD) ->
+ {_, T1, S1} = scan_markup_decl(T, S),
+ scan_doctype3(T1, S1, DTD).
+
+
+
+fetch_DTD(undefined, S=#xmerl_scanner{doctype_DTD=URI}) when is_list(URI)->
+ %% allow to specify DTD name when it isn't available in xml stream
+ fetch_DTD({system,URI},S#xmerl_scanner{doctype_DTD=option_provided});
+fetch_DTD(undefined, S) ->
+ S;
+% fetch_DTD(_,S=#xmerl_scanner{validation=false}) ->
+% S;
+fetch_DTD(DTDSpec, S)->
+ case fetch_and_parse(DTDSpec,S,[{text_decl,true},
+ {environment,{external,subset}}]) of
+ NewS when is_record(NewS,xmerl_scanner) ->
+ NewS;
+ {_Res,_Tail,_Sx} -> % Continue with old scanner data, result in Rules
+ S
+ end.
+
+fetch_and_parse(ExtSpec,S=#xmerl_scanner{fetch_fun=Fetch,
+ rules=Rules,
+ xmlbase = XMLBase},
+ Options0) ->
+ RetS =
+ case Fetch(ExtSpec, S) of
+ {ok, NewS} ->
+ %% For backward compatibility only. This will be removed later!!
+ NewS;
+ {ok, not_fetched,NewS} ->
+ NewS;
+ {ok, DataRet, NewS = #xmerl_scanner{
+ fetch_path=FetchPath,
+ user_state = UState,
+ event_fun = Event,
+ hook_fun = Hook,
+ fetch_fun = Fetch1,
+ close_fun = Close1,
+ continuation_fun = Cont,
+ acc_fun = Acc,
+ rules_read_fun = Read,
+ rules_write_fun = Write,
+ validation = Valid,
+ quiet = Quiet,
+ encoding = Charset
+ }} ->
+ EvS = event_state(NewS),
+ HoS = hook_state(NewS),
+ FeS = fetch_state(NewS),
+ CoS = cont_state(NewS),
+ Options = Options0++[{fetch_path,FetchPath},
+ {user_state, UState},
+ {rules, Rules},
+ {event_fun, Event, EvS},
+ {hook_fun, Hook, HoS},
+ {fetch_fun, Fetch1, FeS},
+ {close_fun, Close1},
+ {continuation_fun, Cont, CoS},
+ {rules, Read, Write, ""},
+ {acc_fun, Acc},
+ {validation,Valid},
+ {quiet,Quiet},
+ {encoding,Charset}],
+
+ case DataRet of
+ {file, F} ->
+ int_file_decl(F, Options,Charset);
+ {string, String} ->
+ int_string_decl(String, Options,XMLBase,file_name_unknown);
+ _ ->
+ %% other scheme
+ {DataRet,[],NewS}
+ end;
+ Error ->
+ ?fatal({error_fetching_DTD, {ExtSpec, Error}}, S)
+ end,
+ case RetS of
+ #xmerl_scanner{} ->
+ RetS#xmerl_scanner{text_decl=false,
+ environment=S#xmerl_scanner.environment};
+ _ -> RetS
+ end.
+
+
+fetch_not_parse(ExtSpec,S=#xmerl_scanner{fetch_fun=Fetch}) ->
+ case Fetch(ExtSpec,S) of
+ {ok, not_fetched,_NewS} ->
+ ?fatal({error_fetching_external_source,ExtSpec},S);
+ {ok, DataRet, NewS} ->
+ {String,LocationName} =
+ case DataRet of
+ {file,F} ->
+ {get_file(F,S),F};
+ {string,Str} ->
+ {binary_to_list(Str),file_name_unknown};
+ {http,URI} ->
+ {{http,URI},URI};
+ _ -> DataRet
+ end,
+ {String, NewS#xmerl_scanner{filename=LocationName}};
+ _ ->
+ ?fatal({error_fetching_external_resource,ExtSpec},S)
+ end.
+
+get_file(F,S) ->
+% io:format("get_file F=~p~n",[F]),
+ case file:read_file(F) of
+ {ok,Bin} ->
+ binary_to_list(Bin);
+ Err ->
+ ?fatal({error_reading_file,F,Err},S)
+ end.
+%% check_decl/1
+%% Now it is necessary to check that all referenced types is declared,
+%% since it is legal to reference some xml types before they are
+%% declared.
+check_decl(#xmerl_scanner{validation=V}) when V =/= dtd ->
+ ok;
+check_decl(#xmerl_scanner{rules=Tab} = S) ->
+ check_notations(Tab,S),
+ check_elements(Tab,S), %% check also attribute defs for element
+ check_entities(Tab,S).
+
+check_notations(Tab,S) ->
+ case ets:match(Tab,{{notation,'$1'},undeclared}) of
+ [[]] -> ok;
+ [] -> ok;
+ [L] when is_list(L) ->
+ ?fatal({error_missing_declaration_in_DTD,hd(L)},S);
+ Err ->
+ ?fatal({error_missing_declaration_in_DTD,Err},S)
+ end.
+
+check_elements(Tab,S) ->
+ case catch ets:match(Tab,{{elem_def,'_'},'$2'},10) of
+ {_,_}=M ->
+ Fun = fun({Match,'$end_of_table'},_F) ->
+ lists:foreach(fun(X)->check_elements2(X,S) end,
+ Match),
+ ok;
+ ('$end_of_table',_) ->
+ ok;
+ ({Match,Cont},F) ->
+ lists:foreach(fun(X)->check_elements2(X,S) end,
+ Match),
+ F(ets:match(Cont),F)
+ end,
+ Fun(M,Fun);
+ '$end_of_table' -> ok;
+ Err -> ?fatal({error_missing_declaration_in_DTD,Err},S)
+ end.
+
+% it is not an error to declare attributes for an element that is not
+% declared.
+check_elements2([#xmlElement{attributes=Attrs}],S) ->
+ check_attributes(Attrs,S);
+check_elements2(_,_) ->
+ ok.
+
+check_attributes([{N1,'ID',_,_,_}=Attr|Rest],S) ->
+ case lists:keysearch('ID',2,Rest) of
+ {value,Att2} ->
+ ?fatal({error_more_than_one_ID_def,N1,element(1,Att2)},S);
+ _ ->
+ ok
+ end,
+ vc_ID_Attribute_Default(Attr,S),
+ check_attributes(Rest,S);
+check_attributes([{_,{enumeration,_},_,_,_}=Attr|T],S) ->
+ vc_Enumeration(Attr,S),
+ check_attributes(T,S);
+check_attributes([{_,Ent,_,_,_}=Attr|T],S)
+ when Ent=='ENTITY';Ent=='ENTITIES' ->
+ vc_Entity_Name(Attr,S),
+ check_attributes(T,S);
+check_attributes([_|T],S) ->
+ check_attributes(T,S);
+check_attributes([],_S) ->
+ ok.
+
+check_entities(Tab,S=#xmerl_scanner{validation=dtd}) ->
+ case ets:match(Tab,{{entity,'$1'},undeclared}) of
+ [[]] -> ok;
+ [] -> ok;
+ [L] when is_list(L) ->
+ ?fatal({error_missing_declaration_in_DTD,hd(L)},S);
+ Err ->
+ ?fatal({error_missing_declaration_in_DTD,Err},S)
+ end;
+check_entities(_,_) ->
+ ok.
+
+
+%% check_decl2/1: checks that all referenced ID attributes are declared
+check_decl2(S=#xmerl_scanner{rules=Tab}) ->
+ check_referenced_ids(Tab,S).
+
+
+check_referenced_ids(Tab,S) ->
+ case ets:match(Tab,{{id,'$1'},undeclared}) of
+ [[]] -> ok;
+ [] -> ok;
+ [L] when is_list(L) ->
+ ?fatal({error_missing_declaration_in_DTD,hd(L)},S);
+ Err ->
+ ?fatal({error_missing_declaration_in_DTD,Err},S)
+ end.
+
+%%%%%%% [30] extSubSet ::= TextDecl? extSubsetDecl
+
+scan_ext_subset([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_ext_subset(MoreBytes, S1) end,
+ fun(S1) -> {[], S1} end,
+ S);
+scan_ext_subset("%" ++ T, S0) ->
+ %% DeclSep [28a]: WFC: PE Between Declarations.
+ %% The replacement text of a parameter entity reference in a
+ %% DeclSep must match the production extSubsetDecl.
+ ?bump_col(1),
+ {T1,S1} = scan_decl_sep(T,S),
+ scan_ext_subset(T1, S1);
+scan_ext_subset("<![" ++ T, S0) ->
+ ?bump_col(3),
+ ?strip1,
+ {_, T2, S2} = scan_conditional_sect(T1, S1),
+ scan_ext_subset(T2,S2);
+scan_ext_subset(T, S) when ?whitespace(hd(T)) ->
+ {_,T1,S1} = strip(T,S),
+ scan_ext_subset(T1, S1);
+scan_ext_subset(T, S) ->
+ {_, T1, S1} = scan_markup_decl(T, S),
+ scan_ext_subset(T1, S1).
+
+
+%%%%%%% [28a] DeclSep ::= PEReference | S
+scan_decl_sep(T,S) ->
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ {ExpandedRef,S2} =
+ case expand_pe_reference(PERefName,S1,as_PE) of
+ Tuple when is_tuple(Tuple) ->
+ %% {system,URI} or {public,URI}
+ {ExpRef,_Sx}=fetch_not_parse(Tuple,S1),
+ {ExpRef,S1};
+ ExpRef ->
+ {ExpRef,S1}
+ end,
+ {_,TRef,S3} = strip(ExpandedRef,S2),
+ {_,S4}=scan_ext_subset(TRef,S3),
+ {T1,S4}.
+% scan_decl_sep(T,S=#xmerl_scanner{rules_read_fun=Read,
+% rules_write_fun=Write,
+% rules_delete_fun=Delete}) ->
+% {PERefName, T1, S1} = scan_pe_reference(T, S),
+% {ExpandedRef,S2} =
+% case expand_pe_reference(PERefName,S1,as_PE) of
+% Tuple when tuple(Tuple) ->
+% %% {system,URI} or {public,URI}
+% {ExpRef,Sx}=fetch_not_parse(Tuple,S1),
+% {EntV,_,_S2} = scan_entity_value(ExpRef, Sx, no_delim,
+% PERefName,parameter),
+% %% should do an update Write(parameter_entity) so next
+% %% expand_pe_reference is faster
+% Delete(parameter_entity,PERefName,_S2),
+% _S3 = Write(parameter_entity,PERefName,EntV,_S2),
+% EntV2 = Read(parameter_entity,PERefName,_S3),
+% {" " ++ EntV2 ++ " ",_S3};
+% ExpRef ->
+% {ExpRef,S1}
+% end,
+% {_, T3, S3} = strip(ExpandedRef,S2),
+% {_T4,S4} = scan_ext_subset(T3,S3),
+% strip(T1,S4).
+
+%%%%%%% [61] ConditionalSect ::= includeSect | ignoreSect
+
+scan_conditional_sect([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_conditional_sect(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_conditional_sect("IGNORE" ++ T, S0) ->
+ ?bump_col(6),
+ ?strip1,
+ T2 = scan_mandatory("[",T1,1,S,expected_IGNORE_bracket),
+% "[" ++ T2 = T1,
+ {_,T3,S3} = strip(T2,S1),
+ scan_ignore(T3,S3);
+scan_conditional_sect("INCLUDE" ++ T, S0) ->
+ ?bump_col(7),
+ ?strip1,
+ T2 = scan_mandatory("[",T1,1,S,expected_INCLUDE_bracket),
+% "[" ++ T2 = T1,
+ {_,T3,S3} = strip(T2,S1),
+ scan_include(T3, S3);
+scan_conditional_sect("%"++T,S0) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_conditional_sect(T2,S2).
+
+
+%%%% [63] ignoreSect ::= '<![' S? 'IGNORE' S? '[' ignoreSectContents* ']]>'
+%%%% [64] ignoreSectContents ::= Ignore ('<![' ignoreSectContents ']]>' Ignore)*
+%%%% [65] Ignore ::= Char* - (Char* ('<![' | ']]>') Char*)
+scan_ignore(Str,S) ->
+ scan_ignore(Str,S,0).
+
+scan_ignore([], S=#xmerl_scanner{continuation_fun = F},Level) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_ignore(MoreBytes, S1,Level) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_ignore("<![" ++ T, S0,Level) ->
+ %% nested conditional section. Topmost condition is ignore, though
+ ?bump_col(3),
+ scan_ignore(T, S,Level+1);
+scan_ignore("]]>" ++ T, S0,0) ->
+ ?bump_col(3),
+ {[], T, S};
+scan_ignore("]]>" ++ T, S0,Level) ->
+ ?bump_col(3),
+ scan_ignore(T, S,Level-1);
+scan_ignore([_H|T],S0,Level) ->
+ ?bump_col(1),
+ scan_ignore(T,S,Level).
+
+
+%%%%%%% [62] includeSect ::= '<![' S? 'INCLUDE' S? '[' extSubsetDecl ']]>'
+scan_include([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_include(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_include("]]>" ++ T, S0) ->
+ ?bump_col(3),
+ {[], T, S};
+scan_include("%" ++ T, S0) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_include(T2, S2);
+scan_include("<![" ++ T, S0) ->
+ ?bump_col(3),
+ ?strip1,
+ {_, T2, S2} = scan_conditional_sect(T1, S1),
+ ?strip3,
+ scan_include(T3,S3);
+scan_include(T, S) ->
+ {_, T1, S1} = scan_markup_decl(T, S),
+ scan_include(T1, S1).
+
+
+%%%%%%% [29] markupdecl ::= elementdecl | AttlistDecl | EntityDecl |
+%%%%%%% NotationDecl | PI |Comment
+%%%%%%% [45] elementdecl ::= '<!ELEMENT' S Name S contentspec S? '>'
+
+%% Validity constraint: Unique Type Declaration: No element type may be
+%% declared more than once.
+%%
+scan_markup_decl([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_markup_decl(MoreBytes, S1) end,
+ fun(S1) -> {[], [], S1} end,
+ S);
+scan_markup_decl("<!--" ++ T, S0) ->
+ ?bump_col(4),
+ scan_comment(T, S);
+scan_markup_decl("<?" ++ T, S0) ->
+ ?bump_col(2),
+ {_PI, T1, S1} = scan_pi(T, S,_Pos=markup),
+ strip(T1, S1);
+scan_markup_decl("<!ELEMENT" ++ T,
+ #xmerl_scanner{rules_read_fun = Read,
+ rules_write_fun = Write,
+ rules_delete_fun = Delete} = S0) ->
+ ?bump_col(9),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {Ename, _NamespaceInfo, T2, S2} = scan_name(T1, S1),
+ Element =
+ case Read(elem_def, Ename, S2) of
+ El = #xmlElement{elementdef=Decl} when Decl =/= undeclared ->
+ case S2#xmerl_scanner.validation of
+ dtd ->
+ ?fatal({already_defined, Ename}, S2);
+ _ ->
+ Delete(elem_def,Ename,S2),
+ El
+ end;
+ El = #xmlElement{} ->
+ Delete(elem_def,Ename,S2),
+ El;
+ undefined ->
+ #xmlElement{}
+ end,
+ {_,T3,S3} = mandatory_strip(T2,S2),
+ {Edef, T4, S4} = scan_contentspec(T3, S3),
+ ?strip5,
+ {">" ++ T6,S6} = scan_element_completion(T5,S5),
+ S7 = Write(elem_def, Ename,
+ Element#xmlElement{name = Ename,
+ content = Edef,
+ elementdef=S6#xmerl_scanner.environment},
+ S6#xmerl_scanner{col=S6#xmerl_scanner.col+1}),
+ strip(T6,S7);
+scan_markup_decl("<!ENTITY" ++ T, S0) ->
+ %% <!ENTITY [%] entity.name NDATA notation.name>
+ %% <!ENTITY [%] entity.name "replacement text">
+ %% <!ENTITY [%] entity.name SYSTEM "system.identifier">
+ %% <!ENTITY [%] entity.name PUBLIC public.identifier "system.identifier">
+ ?bump_col(8),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {T2, S2} = scan_entity(T1, S1),
+ strip(T2,S2);
+scan_markup_decl("<!NOTATION" ++ T, S0) ->
+ %% <!NOTATION notation.name "public.identifier" "helper.application">
+ ?bump_col(10),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {T2, S2} = scan_notation_decl(T1, S1),
+ strip(T2,S2);
+scan_markup_decl("<!ATTLIST" ++ T,
+ #xmerl_scanner{rules_read_fun = Read,
+ rules_write_fun = Write,
+ rules_delete_fun= Delete} = S0) ->
+ %% <!ATTLIST Ename ( AttrName Type Value )*>
+ ?bump_col(9),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {Ename, _NamespaceInfo, T2, S2} = scan_name(T1, S1),
+% ?strip3,
+ {Attributes, T4, S4} = scan_attdef(T2, S2),
+ {EDEF,MergedAttrs} =
+ case Read(elem_def, Ename, S4) of
+ undefined -> %% this may happen when the ELEMENT is declared in
+ %% the external DTD but the ATTLIST in the
+ %% internal DTD.
+ {#xmlElement{},update_attributes(Attributes,[])};
+ Edef = #xmlElement{attributes = OldAttrs} ->
+ Delete(elem_def,Ename,S4),
+ %% the slot in rules table must be empty so that the
+ %% later write has the assumed effect. Read maybe
+ %% should empty the table slot.
+ {Edef,update_attributes(Attributes, OldAttrs)}
+ end,
+ NewEdef = EDEF#xmlElement{name=Ename,attributes = MergedAttrs},
+ S5 = Write(elem_def, Ename, NewEdef, S4),
+ T5 = T4,
+ strip(T5,S5);
+scan_markup_decl(_Str,S) ->
+ ?fatal(expected_markup,S).
+
+scan_element_completion(T,S) ->
+ scan_markup_completion_gt(T,S).
+
+update_attributes(NewAttrs, OldAttrs) ->
+ update_attributes1(NewAttrs,lists:reverse(OldAttrs)).
+
+update_attributes1([A = {Name,_Type,_DefaultV,_DefaultD,_Env}|Attrs],
+ OldAttrs) ->
+ case lists:keymember(Name, 1, OldAttrs) of
+ true ->
+ update_attributes1(Attrs, OldAttrs);
+ false ->
+ update_attributes1(Attrs, [A|OldAttrs])
+ end;
+update_attributes1([],Acc) ->
+ lists:reverse(Acc).
+
+
+%%%%%%% [53] AttDef
+
+scan_attdef([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_attdef(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_attdef(T, S) ->
+ scan_attdef(T, S, _AttrAcc = []).
+
+
+scan_attdef([], S=#xmerl_scanner{continuation_fun = F}, Attrs) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_attdef(MoreBytes, S1, Attrs) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_attdef(">" ++ T, S0, Attrs) ->
+ ?bump_col(1),
+ {lists:reverse(Attrs), T, S};
+scan_attdef("%" ++ _T, S=#xmerl_scanner{environment=prolog}, _Attrs) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_attdef("%" ++ T, S0, Attrs) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_attdef(T2, S2, Attrs);
+scan_attdef(T,S,Attrs) ->
+ {_,T1,S1} = mandatory_strip(T,S),
+ scan_attdef2(T1,S1,Attrs).
+
+scan_attdef2(">" ++ T, S0, Attrs) ->
+ ?bump_col(1),
+ {lists:reverse(Attrs), T, S};
+scan_attdef2("%" ++ _T, S=#xmerl_scanner{environment=prolog}, _Attrs) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_attdef2("%" ++ T, S0, Attrs) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_attdef2(T2, S2, Attrs);
+scan_attdef2(T, S, Attrs) ->
+ {AttName, _NamespaceInfo, T1, S1} = scan_name(T, S),
+ {_,T2,S2} = mandatory_strip(T1,S1),
+ {AttType, T3, S3} = scan_att_type(T2, S2),
+ {_,T4,S4} = mandatory_strip(T3,S3),
+ {{DefaultDecl,DefaultValue}, T5, S5} = scan_default_decl(T4, S4, AttType),
+ ?strip6,
+ Attr = {AttName, AttType,DefaultValue,DefaultDecl,
+ S#xmerl_scanner.environment},
+ scan_attdef2(T6, S6, [Attr|Attrs]).
+
+
+%%% [54] StringType
+scan_att_type([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_att_type(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_att_type("CDATA" ++ T, S0) ->
+ ?bump_col(5),
+ {'CDATA', T, S};
+%%% [55] TokenizedType
+scan_att_type("IDREFS" ++ T, S0) ->
+ ?bump_col(6),
+ {'IDREFS', T, S};
+scan_att_type("IDREF" ++ T, S0) ->
+ ?bump_col(5),
+ {'IDREF', T, S};
+scan_att_type("ID" ++ T, S0) ->
+ ?bump_col(2),
+ {'ID', T, S};
+scan_att_type("ENTITY" ++ T, S0) ->
+ ?bump_col(6),
+ {'ENTITY', T, S};
+scan_att_type("ENTITIES" ++ T, S0) ->
+ ?bump_col(8),
+ {'ENTITIES', T, S};
+scan_att_type("NMTOKENS" ++ T, S0) ->
+ ?bump_col(8),
+ {'NMTOKENS', T, S};
+scan_att_type("NMTOKEN" ++ T, S0) ->
+ ?bump_col(7),
+ {'NMTOKEN', T, S};
+%%% [57] EnumeratedType
+scan_att_type("NOTATION" ++ T, S0) ->
+ ?bump_col(8),
+ {_,T1,S1} = mandatory_strip(T,S),
+ T2 = scan_mandatory("(",T1,1,S1,expected_parenthesis_after_NOTATION),
+% "(" ++ T2 = T1,
+ S2 = S1,
+ ?strip3,
+ {Name, _NamespaceInfo, T4, S4} = scan_name(T3, S3),
+ notation_exists(Name, S4),
+ ?strip5,
+ scan_notation_type(T5, S5, [Name]);
+scan_att_type("(" ++ T, S0) ->
+ ?bump_col(1),
+ ?strip1,
+ {NmToken, _NamespaceInfo, T2, S2} = scan_nmtoken(T1, S1),
+ ?strip3,
+ scan_enumeration(T3, S3, [NmToken]);
+scan_att_type("%" ++ _T, S=#xmerl_scanner{environment=prolog}) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_att_type("%" ++ T, S0) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,in_literal),
+ {ExpRef,T1,S1}.
+
+%%% [58] NotationType
+
+scan_notation_type([], S=#xmerl_scanner{continuation_fun = F}, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_notation_type(MoreBytes, S1, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_notation_type(")" ++ T, S0, Acc) ->
+ ?bump_col(1),
+ {{notation, lists:reverse(Acc)}, T, S};
+scan_notation_type("|" ++ T, S0, Acc) ->
+ ?bump_col(1),
+ ?strip1,
+ {Name, _NamespaceInfo, T2, S2} = scan_name(T1, S1),
+ notation_exists(Name, S2),
+ ?strip3,
+ scan_notation_type(T3, S3, [Name | Acc]).
+
+%%% Validity constraint for NotationType:
+%%% The used notation names must be declared in the DTD, but they may
+%%% be declared later.
+notation_exists(Name, #xmerl_scanner{rules_read_fun = Read,
+ rules_write_fun = Write } = S) ->
+ case Read(notation, Name, S) of
+ undefined ->
+ %% this is legal, since the referenced NOTATION
+ %% may be declared later in internal or external
+ %% subset.
+ Write(notation,Name,undeclared,S);
+ _Value ->
+ ok
+ end.
+
+%%% [59] Enumeration
+
+scan_enumeration([], S=#xmerl_scanner{continuation_fun = F}, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_enumeration(MoreBytes, S1, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_enumeration(")" ++ T, S0, Acc) ->
+ ?bump_col(1),
+ {{enumeration, lists:reverse(Acc)}, T, S};
+scan_enumeration("|" ++ T, S0, Acc) ->
+ ?bump_col(1),
+ ?strip1,
+ {NmToken, _NamespaceInfo, T2, S2} = scan_nmtoken(T1, S1),
+ ?strip3,
+ scan_enumeration(T3, S3, [NmToken|Acc]).
+
+
+%%%%%%% [60] DefaultDecl
+
+scan_default_decl([], S=#xmerl_scanner{continuation_fun = F}, Type) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_default_decl(MoreBytes, S1, Type) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_default_decl("#REQUIRED" ++ T, S0, _Type) ->
+ ?bump_col(9),
+ {{'#REQUIRED',no_value}, T, S};
+scan_default_decl("#IMPLIED" ++ T, S0, _Type) ->
+ ?bump_col(8),
+ {{'#IMPLIED',no_value}, T, S};
+scan_default_decl("#FIXED" ++ T, S0, Type) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {Value,T2,S2,_} = default_value(T1, S1, Type),
+ {{'#FIXED',Value},T2,S2};
+scan_default_decl(Str, S, Type) ->
+ {Value,T1,S1,_} = default_value(Str, S, Type),
+ {{no_decl,Value},T1,S1}.
+
+
+%% There is room here to validate against Type, but we don't do it at
+%% the moment.
+default_value(T, S, Type) ->
+ {_Val, _T1, _S1,_} = scan_att_value(T, S, Type).
+
+
+%%%%%%% [71] EntityDef
+
+scan_entity([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_entity(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_entity("%" ++ T, #xmerl_scanner{rules_write_fun = Write} = S0) ->
+ %% parameter entity
+ ?bump_col(1),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {PEName, _NamespaceInfo, T2, S2} = scan_name_no_colons(T1, S1),
+ {_,T3,S3} = mandatory_strip(T2,S2),
+ {PEDef, T4, S4} = scan_pe_def(T3, S3, PEName),
+ ?strip5,
+ {">" ++ T6,S6} = scan_entity_completion(T5,S5),
+ S7 = Write(parameter_entity, PEName, PEDef, S6),
+ {T6, S7};
+scan_entity(T, #xmerl_scanner{rules_write_fun = Write,
+ rules_read_fun = Read,
+ rules_delete_fun = Delete} = S) ->
+ %% generic entity
+ {EName, _NamespaceInfo, T1, S1} = scan_name_no_colons(T, S),
+ {_,T2,S2} = mandatory_strip(T1,S1),
+ {EDef, EntType, T3, S3} = scan_entity_def(T2, S2, EName),
+ check_entity_recursion(EName,S3),
+ ?strip4,
+ {">" ++ T5,S5} = scan_entity_completion(T4,S4),
+ case Read(entity,EName,S5) of
+ undeclared -> Delete(entity,EName,S5);
+ _ -> ok
+ end,
+ S6 = Write(entity, EName, {S5#xmerl_scanner.environment,EntType,EDef}, S5),
+ {T5, S6}.
+
+scan_entity_completion(T,S) ->
+ scan_markup_completion_gt(T,S).
+
+%%%%%%% [73] EntityDef
+
+scan_entity_def([], S=#xmerl_scanner{continuation_fun = F}, EName) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_entity_def(MoreBytes, S1, EName) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_entity_def("'" ++ T, S0, EName) ->
+ ?bump_col(1),
+ {EVal,T1,S1}=scan_entity_value(T, S, $', EName,general),
+ {EVal,internal,T1,S1};
+scan_entity_def("\"" ++ T, S0, EName) ->
+ ?bump_col(1),
+ {EVal,T1,S1}=scan_entity_value(T, S, $", EName,general),
+ {EVal,internal,T1,S1};
+%% external general entity, parsed or unparsed.
+scan_entity_def(Str, S, EName) ->
+ {ExtID, T1, S1} = scan_external_id(Str, S),
+ {NData, T2, S2} = scan_ndata_decl(T1, S1),
+ case NData of
+ {ndata,_} ->
+ %% if NDATA exists it is an unparsed ENTITY
+ {{ExtID,NData},external,T2,S2};
+ _ ->
+ case fetch_and_parse(ExtID,S2,
+ [{text_decl,true},
+ {environment,{external,{entity,EName}}}]) of
+ {{_USret,Entity},_Tail,_Sx} ->
+ {Entity, external,T2, S2};
+ {Entity,_Tail,Sx} ->
+ OldRef=S2#xmerl_scanner.entity_references,
+ NewRef=Sx#xmerl_scanner.entity_references,
+ {Entity,external,T2,
+ S2#xmerl_scanner{entity_references=OldRef++NewRef}};
+ {error,enoent} -> % this bad entity is declared,
+ % but it may not be referenced,
+ % then it would not be an
+ % error.
+ {{error,enoent},external,T2,S2}
+ end
+ end.
+
+
+scan_ndata_decl([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_ndata_decl(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_ndata_decl(Str = ">"++_T, S) ->
+ {[], Str, S};
+scan_ndata_decl(T, S) ->
+ {_,T1,S1} = mandatory_strip(T,S),
+ scan_ndata_decl2(T1,S1).
+scan_ndata_decl2(Str = ">"++_T,S) ->
+ {[], Str, S};
+scan_ndata_decl2("NDATA" ++ T,S0 = #xmerl_scanner{rules_read_fun = Read,
+ rules_write_fun = Write}) ->
+ ?bump_col(5),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {Name, _NamespaceInfo, T2, S2} = scan_name(T1, S1),
+ case Read(notation, Name, S2) of
+ undefined -> %% this is legal, since the referenced NOTATION
+ %% may be declared later in internal or external
+ %% subset.
+ Write(notation,Name,undeclared,S2),
+ {{ndata,Name},T2,S2};
+ _Value ->
+ {{ndata, Name}, T2, S2}
+ end.
+
+%%%%%%% [39] element
+
+scan_element(T, S, Pos) ->
+ scan_element(T, S, Pos, S#xmerl_scanner.space,
+ _Lang = [], _Parents = [], #xmlNamespace{}).
+
+scan_element(T, S=#xmerl_scanner{line=L,col=C},
+ Pos, SpaceDefault,Lang, Parents, NS) ->
+ {Name, NamespaceInfo, T1, S1} = scan_name(T, S),
+ vc_Element_valid(Name,S),
+ ?strip2,
+ scan_element(T2, S2, Pos, Name, L, C, _Attrs = [],
+ Lang, Parents, NamespaceInfo, NS,
+ SpaceDefault).
+
+
+scan_element("/", S=#xmerl_scanner{continuation_fun = F},
+ Pos, Name, StartL, StartC, Attrs, Lang, Parents,
+ NSI, NS, SpaceDefault) ->
+ ?dbg("trailing / detected~n", []),
+ F(fun(MoreBytes, S1) -> scan_element("/" ++ MoreBytes, S1,
+ Pos, Name, StartL, StartC, Attrs,
+ Lang,Parents,NSI,NS,SpaceDefault) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_element([], S=#xmerl_scanner{continuation_fun = F},
+ Pos, Name, StartL, StartC, Attrs, Lang, Parents,
+ NSI, NS, SpaceDefault) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_element(MoreBytes, S1,
+ Pos, Name, StartL, StartC, Attrs,
+ Lang,Parents,NSI,NS,SpaceDefault) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_element("/>" ++ T, S0 = #xmerl_scanner{hook_fun = Hook,
+ event_fun = Event,
+ line = L, col = C,
+ xmlbase_cache=XMLBase}, Pos,
+ Name, _StartL, _StartC, Attrs0, Lang, Parents, NSI,
+ Namespace, _SpaceDefault) ->
+ ?bump_col(2),
+ Attrs = lists:reverse(Attrs0),
+ E=processed_whole_element(S, Pos, Name, Attrs, Lang, Parents,NSI,Namespace),
+
+ wfc_unique_att_spec(Attrs,S),
+ S1 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = L,
+ col = C,
+ data = E}, S0),
+ {Ret, S2} = Hook(E, S1),
+ S2b=S2#xmerl_scanner{xmlbase=XMLBase},
+ {Ret, T, S2b};
+scan_element(">", S=#xmerl_scanner{continuation_fun = F},
+ Pos, Name, StartL, StartC, Attrs, Lang, Parents,
+ NSI, NS, SpaceDefault) ->
+ ?dbg("trailing > detected~n", []),
+ F(fun(MoreBytes, S1) -> scan_element(">" ++ MoreBytes, S1,
+ Pos, Name, StartL, StartC, Attrs,
+ Lang,Parents,NSI,NS,SpaceDefault) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_element(">" ++ T, S0 = #xmerl_scanner{event_fun = Event,
+ hook_fun = Hook,
+ line = L, col = C,
+ xmlbase_cache=XMLBase,
+ space = SpaceOption},
+ Pos, Name, StartL, StartC, Attrs0, Lang, Parents,
+ NSI, Namespace, SpaceDefault) ->
+ ?bump_col(1),
+ Attrs = lists:reverse(Attrs0),
+ wfc_unique_att_spec(Attrs,S),
+ XMLSpace = case lists:keysearch('xml:space', #xmlAttribute.name, Attrs) of
+ false -> SpaceDefault;
+ {value, #xmlAttribute{value="default"}} -> SpaceOption;
+ {value, #xmlAttribute{value="preserve"}} -> preserve;
+ _ -> SpaceDefault
+ end,
+
+ E0=processed_whole_element(S,Pos,Name,Attrs,Lang,Parents,NSI,Namespace),
+ S1 = #xmerl_scanner{} = Event(#xmerl_event{event = started,
+ line = StartL,
+ col = StartC,
+ data = E0}, S),
+
+ {Content, T1, S2} = scan_content(T, S1, Name, Attrs, XMLSpace,
+ E0#xmlElement.language,
+ [{Name, Pos}|Parents], Namespace),
+
+ Element=E0#xmlElement{content=Content,
+ xmlbase=E0#xmlElement.xmlbase},
+ S3 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = L,
+ col = C,
+ data = Element}, S2),
+ {Ret, S4} = Hook(Element, S3),
+ S4b=S4#xmerl_scanner{xmlbase=XMLBase},
+ {Ret, T1, S4b};
+scan_element(T, S, Pos, Name, StartL, StartC, Attrs, Lang, Parents,
+ NSI, NS, SpaceDefault) ->
+ {AttName, NamespaceInfo, T1, S1} = scan_name(T, S),
+ {T2, S2} = scan_eq(T1, S1),
+ {AttType,_DefaultDecl} = get_att_type(S2,AttName,Name),
+ {AttValue, T3, S3,IsNorm} = scan_att_value(T2, S2, AttType),
+%% check_default_value(S3,DefaultDecl,AttValue),
+ NewNS = check_namespace(AttName, NamespaceInfo, AttValue, NS),
+ wfc_whitespace_betw_attrs(hd(T3),S3),
+ ?strip4,
+ AttrPos = case Attrs of
+ [] ->
+ 1;
+ [#xmlAttribute{pos = P}|_] ->
+ P+1
+ end,
+ Attr = #xmlAttribute{name = AttName,
+ pos = AttrPos,
+ language = Lang,
+ namespace = NamespaceInfo,
+ value = AttValue,
+ normalized = IsNorm},
+ XMLBase=if
+ AttName=='xml:base' ->
+ resolve_relative_uri(AttValue,S4#xmerl_scanner.xmlbase);
+ true ->
+ S4#xmerl_scanner.xmlbase
+ end,
+
+ #xmerl_scanner{event_fun = Event,
+ line = Line,
+ col = Col} = S4,
+ S5 = Event(#xmerl_event{event = ended,
+ line = Line,
+ col = Col,
+ data = Attr},
+ S4#xmerl_scanner{xmlbase=XMLBase,
+ xmlbase_cache=S#xmerl_scanner.xmlbase}),
+ scan_element(T4, S5, Pos, Name, StartL, StartC, [Attr|Attrs],
+ Lang, Parents, NSI, NewNS, SpaceDefault).
+
+get_att_type(S=#xmerl_scanner{rules_read_fun=Read},AttName,ElemName) ->
+ case Read(elem_def,ElemName,S) of
+ #xmlElement{attributes = Attrs} ->
+ case lists:keysearch(AttName,1,Attrs) of
+ {value,{_,AttType,_,DefaultDecl,_}} ->
+ {AttType,DefaultDecl};
+ _ -> {'CDATA',no_value} %% undefined attribute shall be treated as CDATA
+ end;
+ _ -> {'CDATA',no_value}
+ end.
+
+resolve_relative_uri(NewBase="/"++_,CurrentBase) ->
+ case xmerl_uri:parse(CurrentBase) of
+ {error,_Reason} ->
+ NewBase;
+ {Scheme,Host,Port,_Path,_Query} ->
+ atom_to_list(Scheme)++Host++":"++integer_to_list(Port)++NewBase
+ end;
+resolve_relative_uri(NewBase,CurrentBase) ->
+ filename:join(CurrentBase,NewBase).
+
+
+processed_whole_element(S=#xmerl_scanner{hook_fun = _Hook,
+ xmlbase = XMLBase,
+ line = _L, col = _C,
+ event_fun = _Event},
+ Pos, Name, Attrs, Lang, Parents, NSI, Namespace) ->
+ Language = check_language(Attrs, Lang),
+
+ {ExpName, ExpAttrs} =
+ case S#xmerl_scanner.namespace_conformant of
+ true ->
+ %% expand attribute names. We need to do this after having
+ %% scanned all attributes of the element, since (as far as
+ %% I can tell), XML Names only specifies that namespace attrs
+ %% are valid within the whole scope of the element in which
+ %% they are declared, which should also mean that even if they
+ %% are declared after some other attributes, the namespace
+ %% should apply to those attributes as well.
+ %% Note that the default URI does not apply to attrbute names.
+ TempNamespace = Namespace#xmlNamespace{default = []},
+ ExpAttrsX =
+ [A#xmlAttribute{
+ expanded_name=expanded_name(
+ A#xmlAttribute.name,
+ A#xmlAttribute.namespace,
+ % NSI,
+ TempNamespace, S)} || A <- Attrs],
+ {expanded_name(Name, NSI, Namespace, S), ExpAttrsX};
+ false ->
+ {Name, Attrs}
+ end,
+
+ #xmlElement{name = Name,
+ xmlbase = XMLBase,
+ pos = Pos,
+ parents = Parents,
+ attributes = ExpAttrs,
+ language = Language,
+ expanded_name = ExpName,
+ nsinfo = NSI,
+ namespace = Namespace}.
+
+
+check_language([#xmlAttribute{name='xml:lang',value=Lang}|_], _) ->
+ Lang;
+check_language([_|T], Lang) ->
+ check_language(T, Lang);
+check_language([], Lang) ->
+ Lang.
+
+
+check_namespace(xmlns, _, Value, NS) ->
+ NS#xmlNamespace{default = list_to_atom(Value)};
+check_namespace(_, {"xmlns", Prefix}, Value,
+ NS = #xmlNamespace{nodes = Ns}) ->
+ NS#xmlNamespace{nodes = keyreplaceadd(
+ Prefix, 1, Ns, {Prefix, list_to_atom(Value)})};
+check_namespace(_, _, _, NS) ->
+ NS.
+
+
+expanded_name(Name, [], #xmlNamespace{default = []}, _S) ->
+ Name;
+expanded_name(Name, [], #xmlNamespace{default = URI}, _S) ->
+ {URI, Name};
+expanded_name(_Name, {"xmlns", Local}, _NS, _S) -> % CHECK THIS /JB
+ {"xmlns",Local};
+expanded_name(_Name, {Prefix, Local}, #xmlNamespace{nodes = Ns}, S) ->
+ case lists:keysearch(Prefix, 1, Ns) of
+ {value, {_, URI}} ->
+ {URI, list_to_atom(Local)};
+ false ->
+ %% A namespace constraint of XML Names is that the prefix
+ %% must be declared
+ ?fatal({namespace_prefix_not_declared, Prefix}, S)
+ end.
+
+
+
+
+keyreplaceadd(K, Pos, [H|T], Obj) when K == element(Pos, H) ->
+ [Obj|T];
+keyreplaceadd(K, Pos, [H|T], Obj) ->
+ [H|keyreplaceadd(K, Pos, T, Obj)];
+keyreplaceadd(_K, _Pos, [], Obj) ->
+ [Obj].
+
+%%%%%%% [10] AttValue
+%% normalize the attribute value according to XML 1.0 section 3.3.3
+
+scan_att_value([], S=#xmerl_scanner{continuation_fun = F},AT) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_att_value(MoreBytes, S1, AT) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_att_value("%"++_T,S=#xmerl_scanner{environment=prolog},_AttType) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_att_value("%"++T,S0=#xmerl_scanner{rules_read_fun=Read,
+ rules_write_fun=Write,
+ rules_delete_fun=Delete},AttType) ->
+ ?bump_col(1),
+ {Name,T1,S1} = scan_pe_reference(T,S),
+ {ExpandedRef,S2} =
+ case expand_pe_reference(Name,S1,in_literal) of
+ Tuple when is_tuple(Tuple) ->
+ %% {system,URI} or {public,URI}
+ %% Included in literal, just get external file.
+ {ExpRef,Sx}=fetch_not_parse(Tuple,S1),
+ {EntV,_,_S2} = scan_entity_value(ExpRef, Sx, no_delim,
+ Name,parameter),
+ %% should do an update Write(parameter_entity) so next
+ %% expand_pe_reference is faster
+ Delete(parameter_entity,Name,_S2),
+ _S3 = Write(parameter_entity,Name,EntV,_S2),
+ EntV2 = Read(parameter_entity,Name,_S3),
+ {EntV2,_S3};
+ ExpRef ->
+ {ExpRef,S1}
+ end,
+ {_,T2,S3} = strip(ExpandedRef ++ T1,S2),
+ scan_att_value(T2,S3,AttType);
+scan_att_value([H|T], S0,'CDATA'=AT) when H == $"; H == $' ->
+ ?bump_col(1),
+ scan_att_chars(T, S, H, [],[], AT,false);
+scan_att_value([H|T], S0,AttType) when H == $"; H == $' ->
+ ?bump_col(1),
+ {T1,S1,IsNorm} = normalize(T,S,false),
+ scan_att_chars(T1, S1, H, [],[], AttType,IsNorm).
+
+scan_att_chars([],S=#xmerl_scanner{continuation_fun=F},H,Acc,TmpAcc,AT,IsNorm)->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) ->
+ scan_att_chars(MoreBytes, S1, H, Acc,TmpAcc,AT,IsNorm)
+ end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_att_chars([H|T], S0, H, Acc, TmpAcc,AttType,IsNorm) -> % End quote
+ ?bump_col(1),
+ check_att_default_val(S#xmerl_scanner.validation,TmpAcc,AttType,S),
+ {Acc2,S2,IsNorm2} =
+ if
+ AttType == 'CDATA' -> {Acc,S,IsNorm};
+ true ->
+ normalize(Acc,S,IsNorm)
+ end,
+ {lists:reverse(Acc2), T, S2,IsNorm2};
+scan_att_chars("&" ++ T, S0, Delim, Acc, TmpAcc,AT,IsNorm) -> % Reference
+ ?bump_col(1),
+ {ExpRef, T1, S1} = scan_reference(T, S),
+ case markup_delimeter(ExpRef) of
+ true ->
+ scan_att_chars(T1,S1,Delim,[ExpRef|Acc],[ExpRef|TmpAcc],AT,IsNorm);
+ _ ->
+ scan_att_chars(string_to_char_set(S#xmerl_scanner.encoding,ExpRef)
+ ++ T1, S1, Delim, Acc,TmpAcc, AT,IsNorm)
+ end;
+scan_att_chars("<" ++ _T, S0, _Delim, _Acc,_, _,_) -> % Tags not allowed here
+ ?fatal(unexpected_char, S0);
+scan_att_chars([H|T], S0, Delim, Acc, _TmpAcc,'CDATA',IsNorm)
+ when ?whitespace(H) ->
+ ?bump_col(1),
+ scan_att_chars(T, S, Delim, [$\s|Acc], [],'CDATA',IsNorm);
+scan_att_chars([H|T], S0, Delim, Acc, TmpAcc,AT,IsNorm)
+ when ?whitespace(H) ->
+ ?bump_col(1),
+ {T1,S1,IsNorm2} = normalize(T,S,IsNorm),
+ check_att_default_val(S#xmerl_scanner.validation,TmpAcc,AT,S1),
+ scan_att_chars(T1, S1, Delim, [$\s|Acc],[], AT,IsNorm2);
+scan_att_chars(Str, S0, Delim, Acc, TmpAcc,AT,IsNorm) ->
+ ?bump_col(1),
+ {Ch,T} = to_ucs(S#xmerl_scanner.encoding,Str),
+ valid_Char(S#xmerl_scanner.validation,AT,Ch,S),
+ scan_att_chars(T, S, Delim, [Ch|Acc], [Ch|TmpAcc],AT,IsNorm).
+
+markup_delimeter("&")-> true;
+markup_delimeter("\"") -> true;
+markup_delimeter("\'") -> true;
+markup_delimeter("<") -> true;
+markup_delimeter(">") -> true;
+markup_delimeter("%") -> true;
+markup_delimeter(_) -> false.
+
+check_att_default_val(dtd,[],_Ent,_S) ->
+ ok;
+check_att_default_val(dtd,RevName,Ent,S) ->
+ check_att_default_val(lists:reverse(RevName),Ent,S);
+check_att_default_val(_,_,_,_) ->
+ ok.
+
+check_att_default_val(Name,Ent,S=#xmerl_scanner{rules_write_fun=Write})
+ when Ent == 'ENTITY'; Ent == 'ENTITIES' ->
+ case xmerl_lib:is_letter(hd(Name)) of
+ true -> ok;
+ _ -> ?fatal({illegal_first_character,Ent,Name},S)
+ end,
+ SName = list_to_atom(Name),
+ Write(entity,SName,undeclared,S);
+check_att_default_val(Name,IDR,S=#xmerl_scanner{rules_write_fun=Write})
+ when IDR == 'IDREF'; IDR == 'IDREFS' ->
+ case xmerl_lib:is_letter(hd(Name)) of
+ true -> ok;
+ _ -> ?fatal({illegal_first_character,IDR,Name},S)
+ end,
+ SName = list_to_atom(Name),
+ Write(id,SName,undeclared,S);
+check_att_default_val(Name,'ID',S=#xmerl_scanner{rules_write_fun=Write,
+ rules_read_fun=Read,
+ rules_delete_fun=Delete}) ->
+ case xmerl_lib:is_name(Name) of
+ false ->
+ ?fatal({'ID_names_must_be_Name_production',Name},S);
+ _ ->
+ ok
+ end,
+ SName = if
+ is_list(Name) -> list_to_atom(Name);
+ true -> Name
+ end,
+ case Read(id,SName,S) of
+ undeclared -> %% was referenced in IDREF/IDREFS before defined
+ Delete(id,SName,S);
+ SName -> ?fatal({values_must_be_unique,'ID',SName},S);
+ undefined -> ok
+ end,
+ Write(id,SName,SName,S);
+check_att_default_val(_,_,_) ->
+ ok.
+
+valid_Char(dtd,AT,C,S) when AT=='NMTOKEN';AT=='NMTOKENS' ->
+ vc_Valid_Char(AT,C,S);
+valid_Char(_,_,[C],S) ->
+ case xmerl_lib:is_char(C) of
+ true ->
+ ok;
+ false ->
+ ?fatal({unexpected_char,C}, S)
+ end;
+valid_Char(_,_,C,S) ->
+ case xmerl_lib:is_char(C) of
+ true ->
+ ok;
+ false ->
+ ?fatal({unexpected_char,C}, S)
+ end.
+
+
+
+%%%%%%% [43] content
+
+scan_content(T, S, Name, Attrs, Space, Lang, Parents, NS) ->
+ scan_content(T, S, _Pos = 1, Name, Attrs, Space,
+ Lang, Parents, NS, _Acc = [],_MarkupDel=[]).
+
+scan_content("<", S= #xmerl_scanner{continuation_fun = F},
+ Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,_) ->
+ ?dbg("trailing < detected~n", []),
+ F(fun(MoreBytes, S1) -> scan_content("<" ++ MoreBytes, S1,
+ Pos, Name, Attrs,
+ Space, Lang, Parents, NS, Acc,[]) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_content([], S=#xmerl_scanner{environment={external,{entity,_}}},
+ _Pos, _Name, _Attrs, _Space, _Lang, _Parents, _NS, Acc,_) ->
+ {lists:reverse(Acc),[],S};
+scan_content([], S=#xmerl_scanner{environment=internal_parsed_entity},
+ _Pos, _Name, _Attrs, _Space, _Lang, _Parents, _NS, Acc,_) ->
+ {lists:reverse(Acc),[],S};
+scan_content([], S=#xmerl_scanner{continuation_fun = F},
+ Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,_) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_content(MoreBytes, S1,
+ Pos, Name, Attrs,
+ Space, Lang, Parents, NS, Acc,[]) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_content("</" ++ T, S0, _Pos, Name, _Attrs, _Space, _Lang,
+ _Parents, _NS, Acc,[]) ->
+ ?bump_col(2),
+ {ETagName, _NamespaceInfo, T1, S1} = scan_name(T, S),
+ if ETagName == Name ->
+ ok;
+ true ->
+ ?fatal({endtag_does_not_match, {was,ETagName,should_have_been, Name}}, S)
+ end,
+ ?strip2,
+ case T2 of
+ ">" ++ T3 ->
+ {lists:reverse(Acc), T3, S2};
+ _ ->
+ ?fatal({error,{unexpected_end_of_STag}},S)
+ end;
+scan_content([$&|_T]=Str,
+ #xmerl_scanner{environment={external,{entity,EName}}} = S0,
+ Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,_) ->
+ {_EntV,T1,S1}=scan_entity_value(Str,S0 ,[],EName,general),
+ %%This is a problem. All referenced entities in the external entity must be checked for recursion, thus parse the contentbut,skip result.
+ scan_content(T1,S1,Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,[]);
+scan_content("&"++T,
+ #xmerl_scanner{environment=internal_parsed_entity} = S,
+ Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,_) ->
+ {_, T1, S1} = scan_reference(T, S),
+ scan_content(T1,S1,Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,[]);
+scan_content("&" ++ T, S0, Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,[]) ->
+ ?bump_col(1),
+ {ExpRef, T1, S1} = scan_reference(T, S),
+ case markup_delimeter(ExpRef) of
+ true -> scan_content(ExpRef++T1,S1,Pos,Name,Attrs,Space,Lang,Parents,NS,Acc,ExpRef);
+ _ ->
+ scan_content(string_to_char_set(S1#xmerl_scanner.encoding,ExpRef)++T1,S1,Pos,Name,Attrs,Space,Lang,Parents,NS,Acc,[])
+ end;
+scan_content("<!--" ++ T, S, Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,[]) ->
+ {_, T1, S1} = scan_comment(T, S, Pos, Parents, Lang),
+ scan_content(T1, S1, Pos+1, Name, Attrs, Space, Lang, Parents, NS, Acc,[]);
+scan_content("<" ++ T, S0, Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,[]) ->
+ ?bump_col(1),
+ {Markup, T1, S1} =
+ scan_content_markup(T, S, Pos, Name, Attrs, Space, Lang, Parents, NS),
+ AccF = S1#xmerl_scanner.acc_fun,
+ {NewAcc, NewPos, NewS} = case AccF(Markup, Acc, S1) of
+ {Acc2, S2} ->
+ {Acc2, Pos+1, S2};
+ {Acc2, Pos2, S2} ->
+ {Acc2, Pos2, S2}
+ end,
+ scan_content(T1, NewS, NewPos, Name, Attrs, Space, Lang,
+ Parents, NS, NewAcc,[]);
+scan_content([_H|T], S= #xmerl_scanner{environment={external,{entity,_}}},
+ Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,_) ->
+ %% Guess we have to scan the content to find any internal entity
+ %% references.
+ scan_content(T,S,Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,[]);
+scan_content(T, S=#xmerl_scanner{acc_fun = F,
+ event_fun = Event,
+ hook_fun=Hook,
+ line = _L},
+ Pos, Name, Attrs, Space, Lang, Parents, NS, Acc,MarkupDel) ->
+ Text0 = #xmlText{pos = Pos,
+ parents = Parents},
+ S1 = #xmerl_scanner{} = Event(#xmerl_event{event = started,
+ line = S#xmerl_scanner.line,
+ data = Text0}, S),
+ {Data, T1, S2} = scan_char_data(T, S1, Space,MarkupDel),
+ Text = Text0#xmlText{value = Data},
+ {Ret,S2b} = Hook(Text,S2),
+ S3 = #xmerl_scanner{} = Event(#xmerl_event{event = ended,
+ line = S2b#xmerl_scanner.line,
+ data = Ret}, S2b),
+ {NewAcc, NewPos, NewS} = case F(Ret, Acc, S3) of
+ {Acc4, S4} ->
+ {Acc4, Pos+1, S4};
+ {Acc4, Pos4, S4} ->
+ {Acc4, Pos4, S4}
+ end,
+ scan_content(T1, NewS, NewPos, Name, Attrs, Space, Lang,
+ Parents, NS, NewAcc,[]).
+
+
+scan_content_markup([], S=#xmerl_scanner{continuation_fun = F},
+ Pos, Name, Attrs, Space, Lang, Parents, NS) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_content_markup(
+ MoreBytes,S1,Pos,Name,
+ Attrs,Space,Lang,Parents,NS) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_content_markup("![CDATA[" ++ T, S0, Pos, _Name, _Attrs,
+ _Space, _Lang, Parents, _NS) ->
+ ?bump_col(8),
+ scan_cdata(T, S, Pos, Parents);
+scan_content_markup("?"++T,S0,Pos,_Name,_Attrs,_Space,_Lang,_Parents,_NS) ->
+ ?bump_col(1),
+ scan_pi(T, S, Pos);
+scan_content_markup(T, S, Pos, _Name, _Attrs, Space, Lang, Parents, NS) ->
+ scan_element(T, S, Pos, Space, Lang, Parents, NS).
+
+scan_char_data(T, S, Space,MUD) ->
+ scan_char_data(T, S, Space,MUD, _Acc = []).
+
+%%%%%%% [14] CharData
+
+scan_char_data([], S=#xmerl_scanner{environment={external,{entity,_}}},
+ _Space,_MUD, Acc) ->
+
+ {lists:reverse(Acc), [], S};
+scan_char_data([], S=#xmerl_scanner{environment=internal_parsed_entity},
+ _Space, _MUD,Acc) ->
+
+ {lists:reverse(Acc), [], S};
+scan_char_data([], S=#xmerl_scanner{continuation_fun = F}, Space, _MUD,Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_char_data(MoreBytes,S1,Space,_MUD,Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_char_data([$&|T], S,Space,"&",Acc) ->
+ scan_char_data(T, S, Space,[], [$&|Acc]);
+scan_char_data(T=[$&|_], S,_Space,_MUD,Acc) ->
+
+ {lists:reverse(Acc), T, S};
+scan_char_data("]]>" ++ _T, S, _Space,_MUD, _Acc) ->
+ %% See Section 2.4: Especially:
+ %% "The right angle bracket (>) MAY be represented using the string "&gt;",
+ %% and MUST, for compatibility, be escaped using either "&gt;" or a
+ %% character reference when it appears in the string "]]>" in content, when
+ %% that string is not marking the end of a CDATA section.
+ ?fatal(unexpected_cdata_end, S);
+scan_char_data([$<|T],S,Space,"<", Acc) ->
+ scan_char_data(T, S, Space,[], [$<|Acc]);
+scan_char_data(T = [$<|_], S, _Space,_MUD,Acc) ->
+
+ {lists:reverse(Acc), T, S};
+scan_char_data(T = [H|R], S, Space,MUD, Acc) when ?whitespace(H) ->
+ if
+ MUD =:= [], Acc =:= [], H =:= $\n, Space =:= preserve ->
+ case fast_accumulate_whitespace(R, S, T) of
+ {done, Reply} ->
+ Reply;
+ {NewAcc, T1, S1} ->
+ scan_char_data(T1, S1, Space, MUD, NewAcc)
+ end;
+ true ->
+ {NewAcc, T1, S1} = accumulate_whitespace(T, S, Space, Acc),
+ scan_char_data(T1, S1, Space,MUD,NewAcc)
+ end;
+scan_char_data([H1,H2|_T],S,_Space,_MUD,_Acc) when ?non_character(H1,H2) ->
+ ?fatal({error,{not_allowed_to_use_Unicode_noncharacters}},S);
+scan_char_data("]]>"++_T,S,_Space,_MUD,_Acc) ->
+ ?fatal({error,{illegal_character_in_content,"]]>"}},S);
+scan_char_data(Str,S0,Space,MUD,Acc) ->
+ ?bump_col(1),
+ {Ch,T} = wfc_legal_char(Str,S),
+ scan_char_data(T,S,Space,MUD,[Ch|Acc]).
+
+
+
+%%%%%%% [18]-[21] CDATA
+
+scan_cdata(Str, S, Pos, Parents) ->
+ scan_cdata(Str, S, Pos, Parents, _Acc = []).
+
+
+scan_cdata([], S=#xmerl_scanner{continuation_fun = F}, Pos, Parents, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_cdata(MoreBytes, S1, Pos, Parents, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_cdata("]]>" ++ T, S0, Pos, Parents, Acc) ->
+ ?bump_col(3),
+ {#xmlText{pos = Pos,
+ parents = Parents,
+ value = lists:reverse(Acc),
+ type = cdata}, T, S};
+scan_cdata(Str, S0, Pos, Parents, Acc) ->
+ {Ch,T} = to_ucs(S0#xmerl_scanner.encoding,Str),
+ case xmerl_lib:is_char(Ch) of
+ true ->
+ ?bump_col(1),
+ scan_cdata(T, S, Pos, Parents, [Ch|Acc]);
+ false ->
+ ?fatal({unexpected_char,Ch}, S0)
+ end.
+
+
+%%%%%%% [67] Reference
+%% returns a three tuple {Result,RestBuf,State}
+
+scan_reference([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_reference(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_reference("#x" ++ T, S0) ->
+ %% [66] CharRef
+ ?bump_col(1),
+ if hd(T) /= $; ->
+ {[Ch], T2, S2} = scan_char_ref_hex(T, S, 0),
+ {to_char_set(S2#xmerl_scanner.encoding,Ch),T2,S2};
+ true ->
+ ?fatal(invalid_char_ref, S)
+ end;
+scan_reference("#" ++ T, S0) ->
+ %% [66] CharRef
+ ?bump_col(1),
+ if hd(T) /= $; ->
+ scan_char_ref_dec(T, S, []);
+ true ->
+ ?fatal(invalid_char_ref, S)
+ end;
+scan_reference(T, S) ->
+ case catch scan_entity_ref(T, S) of
+ {'EXIT', _} ->
+ ?fatal(error_scanning_entity_ref,S);
+ Other ->
+ Other
+ end.
+
+
+%% Chapter 4.4.2: ... the replacement text of entities used to escape
+%% markup delimiters (the entities amp, lt, gt, apos, quot) is always treated
+%% as data. (The string "AT&amp;T;" expands to "AT&T;" and the remaining
+%% ampersand is not recognized as an entity-reference delimiter.)"
+%%
+%% How to achieve this? My current approach is to insert the *strings* "&",
+%% "<", ">", "'", and "\"" instead of the characters. The processor will
+%% ignore them when performing multiple expansions. This means, for now, that
+%% the character data output by the processor is (1-2 levels) deep.
+%% At some suitable point, we should flatten these, so that application-level
+%% processors should not have to be aware of this detail.
+
+scan_entity_ref([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_entity_ref(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_entity_ref("amp;" ++ T, S0) ->
+ ?bump_col(4),
+ {"&", T, S};
+scan_entity_ref("lt;" ++ T, S0) ->
+ ?bump_col(3),
+ {"<", T, S};
+scan_entity_ref("gt;" ++ T, S0) ->
+ ?bump_col(3),
+ {">", T, S};
+scan_entity_ref("apos;" ++ T, S0) ->
+ ?bump_col(5),
+ {"'", T, S};
+scan_entity_ref("quot;" ++ T, S0) ->
+ ?bump_col(5),
+ {"\"", T, S};
+scan_entity_ref(T, S) ->
+ {Name, _NamespaceInfo, T1, S1} = scan_name(T, S),
+ T2 = scan_mandatory(";",T1,1,S1,expected_entity_reference_semicolon),
+% ";" ++ T2 = T1,
+ S2 = S1,
+ Entity = expand_reference(Name, S2),
+ {Entity, T2, S2}.
+
+
+%%%%%%% [69] PEReference
+
+scan_pe_reference(T, S) ->
+ {Name, _NamespaceInfo, T1, S1} = scan_name(T, S),
+ T2 = scan_mandatory(";",T1,1,S1,expected_parsed_entity_reference_semicolon),
+% ";" ++ T2 = T1,
+ {Name, T2, S1#xmerl_scanner{col = S1#xmerl_scanner.col+1}}.
+
+expand_pe_reference(Name, #xmerl_scanner{rules_read_fun = Read} = S,WS) ->
+ case Read(parameter_entity, Name, S) of
+ undefined ->
+ ?fatal({unknown_parameter_entity, Name}, S); % WFC or VC failure
+ Err={error,_Reason} ->
+ ?fatal(Err,S);
+ Tuple when is_tuple(Tuple) ->
+ Tuple;
+ Result ->
+ if
+ WS == in_literal -> Result;
+ true -> " "++Result++" "
+ end
+ end.
+
+% Currently unused
+%
+% expand_external_pe_reference(Name, #xmerl_scanner{rules_read_fun = Read} = S) ->
+% case Read(parameter_entity, Name, S) of
+% undefined ->
+% ?fatal({unknown_parameter_entity, Name}, S);
+% Result ->
+% fetch_DTD(Result,S)
+% end.
+
+
+%%%%%%% [68] EntityReference
+
+expand_reference(Name, #xmerl_scanner{environment={external,{entity,_}}}) ->
+ atom_to_list(Name);
+expand_reference(Name, #xmerl_scanner{environment=internal_parsed_entity}) ->
+ atom_to_list(Name);
+expand_reference(Name, #xmerl_scanner{rules_read_fun = Read} = S) ->
+ case Read(entity, Name, S) of
+ undefined ->
+ ?fatal({unknown_entity_ref, Name}, S);
+ {_,external,{error,enoent}} ->
+ ?fatal({error,{entity_target_not_found,{error,enoent},Name}},S);
+ {DefEnv,EntType,Value} ->
+ wfc_Entity_Declared(DefEnv,S,Name),
+ Value2 = string_to_char_set(S#xmerl_scanner.encoding,Value),
+ wfc_Internal_parsed_entity(EntType,Value2,S),
+ Value
+ end.
+
+
+%%%%%%% [66] CharRef
+
+scan_char_ref_dec([], S=#xmerl_scanner{continuation_fun = F}, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_char_ref_dec(MoreBytes, S1, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_char_ref_dec([H|T], S0, Acc) when H >= $0, H =< $9 ->
+ ?bump_col(1),
+ scan_char_ref_dec(T, S, [H|Acc]);
+scan_char_ref_dec(";" ++ T, S0, Acc) ->
+ ?bump_col(1),
+ Ref = list_to_integer(lists:reverse(Acc)),
+ {Ch,_} = wfc_legal_char(Ref,S),
+ {[Ch], T, S}. %% changed return value from [[Ref]]
+
+
+scan_char_ref_hex([], S=#xmerl_scanner{continuation_fun = F}, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_char_ref_hex(MoreBytes, S1, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_char_ref_hex([H|T], S0, Acc) when H >= $0, H =< $9 ->
+ ?bump_col(1),
+ Dec = H - $0,
+ scan_char_ref_hex(T, S, (Dec bor (Acc bsl 4)));
+scan_char_ref_hex([H|T], S0, Acc) when H >= $a, H =< $f ->
+ ?bump_col(1),
+ Dec = (H - $a) + 10,
+ scan_char_ref_hex(T, S, (Dec bor (Acc bsl 4)));
+scan_char_ref_hex([H|T], S0, Acc) when H >= $A, H =< $F ->
+ ?bump_col(1),
+ Dec = (H - $A) + 10,
+ scan_char_ref_hex(T, S, (Dec bor (Acc bsl 4)));
+scan_char_ref_hex(";" ++ T, S0, Acc) ->
+ ?bump_col(1),
+ {Ch,_} = wfc_legal_char(Acc,S),
+ {[Ch], T, S}. %% changed return value from [[Acc]]
+
+
+
+%%%%%%% [25] Eq
+%%% Eq ::= S? '=' S?
+scan_eq(T, S) ->
+ ?strip1,
+ case T1 of
+ [$=|T2] ->
+ S2 = S1#xmerl_scanner{col=S1#xmerl_scanner.col+1},
+ ?strip3,
+ {T3, S3};
+ _ ->
+ ?fatal(assignment_expected,S)
+ end.
+
+
+%% scan_name/2
+%%
+%% We perform some checks here to make sure that the names conform to
+%% the "Namespaces in XML" specification. This is an option.
+%%
+%% Qualified Name:
+%% [6] QName ::= (Prefix ':')? LocalPart
+%% [7] Prefix ::= NCName
+%% [8] LocalPart ::= NCName
+%% [4] NCName ::= (Letter | '_') (NCNameChar)*
+%% [5] NCNameChar ::= Letter | Digit | '.' | '-' | '_'
+%% | CombiningChar | Extender
+
+
+%% The effect of XML Names (namespace) conformance is that:
+%% - All element types and attribute names contain either zero or one colon
+%% - No entity names, PI targets, or notation names contain any colons.
+%%
+%% scan_name_no_colons/2 will ensure that the name contains no colons iff
+%% the scanner has been told to be namespace conformant. Otherwise, it will
+%% behave exactly like scan_name/2.
+%%
+scan_name_no_colons(Str, S) ->
+ NSC = S#xmerl_scanner.namespace_conformant,
+ case NSC of
+ true ->
+ {Target, NSI, T1, S1} =
+ scan_name(Str,S#xmerl_scanner{namespace_conformant=no_colons}),
+ {Target,NSI,T1,S1#xmerl_scanner{namespace_conformant=NSC}};
+ false ->
+ scan_name(Str, S)
+ end.
+
+
+
+%% [5] Name ::= (Letter | '_' | ':') (NameChar)*
+scan_name([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_name(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_name(Str = [$:|T], S0 = #xmerl_scanner{namespace_conformant = NSC}) ->
+ if NSC == false ->
+ ?bump_col(1),
+ scan_nmtoken(T, S, [$:], NSC);
+ NSC == no_colons ->
+ ?fatal({invalid_NCName, lists:sublist(Str, 1, 6)}, S0);
+ true ->
+ %% In order to conform with the "Namespaces in XML" spec,
+ %% we cannot allow names to begin with ":"
+ ?fatal({invalid_NCName, lists:sublist(Str, 1, 6)}, S0)
+ end;
+scan_name([$_|T], S0 = #xmerl_scanner{namespace_conformant = NSC}) ->
+ ?bump_col(1),
+ scan_nmtoken(T, S, [$_], NSC);
+scan_name("%"++_T,S=#xmerl_scanner{environment=prolog}) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_name("%"++T,S0=#xmerl_scanner{environment={external,_}}) ->
+ %% parameter entity that expands to a name
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_name(T2,S2);
+scan_name(Str, S0 = #xmerl_scanner{namespace_conformant = NSC}) ->
+ {Ch,T} = to_ucs(S0#xmerl_scanner.encoding,Str),
+ case xmerl_lib:is_letter(Ch) of
+ true ->
+ ?bump_col(1),
+ scan_nmtoken(T, S, [Ch], NSC);
+ false ->
+ ?fatal({invalid_name, lists:sublist(Str, 1, 6)}, S0)
+ end;
+scan_name(Str, S) ->
+ ?fatal({invalid_name, Str}, S).
+
+
+
+
+
+
+scan_nmtoken(Str, S, Acc, NSC) ->
+ scan_nmtoken(Str, S, Acc, _Prefix = [], _Local = Acc, NSC,isLatin1(hd(Acc),true)).
+
+%% scan_nmtoken/2
+%% [7] NmToken ::= (NameChar)+
+scan_nmtoken([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_nmtoken(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_nmtoken("%"++T, S0=#xmerl_scanner{environment={external,_}}) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_nmtoken(T2,S2);
+scan_nmtoken(Str, S) ->
+ {Ch,T} = to_ucs(S#xmerl_scanner.encoding,Str),
+ case xmerl_lib:is_namechar(Ch) of
+ true ->
+ scan_nmtoken(T, S#xmerl_scanner{col = S#xmerl_scanner.col+1},
+ _Acc = [Ch], _Prefix = [], _Local = [Ch],
+ _NamespaceConformant = false,isLatin1(Ch,true));
+ false ->
+ ?fatal({invalid_nmtoken, lists:sublist(Str, 1, 6)}, S)
+ end.
+
+
+scan_nmtoken([], S=#xmerl_scanner{continuation_fun = F},
+ Acc, Prefix, Local, NSC,IsLatin1) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_nmtoken(MoreBytes,S1,Acc,Prefix,Local,NSC,IsLatin1) end,
+ fun(S1) -> {list_to_atom(lists:reverse(Acc)),
+ namespace_info(Prefix, Local),[],S1} end,
+ S);
+%% whitespace marks the end of a name
+scan_nmtoken(Str = [H|_], S, Acc, Prefix, Local, _NSC,true) when ?whitespace(H) ->
+ %% we don't strip here because the occurrence of whitespace may be an error
+ %% e.g. <!ELEMENT spec (front, body, back ?)>
+ NmString = lists:reverse(Acc),
+ {list_to_atom(NmString), namespace_info(Prefix, Local), Str, S};
+scan_nmtoken(Str = [$:|_], S, Acc, [], _Local, no_colons,_IsLatin1) ->
+ ?fatal({invalid_NCName,
+ lists:sublist(lists:reverse(Acc) ++ Str, 1, 6)}, S);
+scan_nmtoken([$:|T], S0, Acc, [], Local, NSC, IsLatin1) ->
+ ?bump_col(1),
+ scan_nmtoken(T, S, [$:|Acc], lists:reverse(Local), [], NSC,IsLatin1);
+scan_nmtoken(Str = [$:|_T], S, Acc, _Prefix, _Local, _NSC = true,_IsLatin1) ->
+ %% non-empty Prefix means that we've encountered a ":" already.
+ %% Conformity with "Namespaces in XML" requires
+ %% at most one colon in a name
+ ?fatal({invalid_NCName,
+ lists:sublist(lists:reverse(Acc) ++ Str, 1, 6)}, S);
+
+%% non-namechar also marks the end of a name
+scan_nmtoken(Str, S0, Acc, Prefix, Local, NSC,IsLatin1) ->
+ ?bump_col(1),
+ {Ch,T} = to_ucs(S#xmerl_scanner.encoding,Str),
+ case {xmerl_lib:is_namechar(Ch),IsLatin1} of
+ {true,_} ->
+ scan_nmtoken(T, S, [Ch|Acc], Prefix, [Ch|Local], NSC,isLatin1(Ch,IsLatin1));
+ {_,true} ->
+ NmStr = lists:reverse(Acc),
+ {list_to_atom(NmStr), namespace_info(Prefix, Local), Str, S};
+ _ ->
+ {lists:reverse(Acc), namespace_info(Prefix, Local), Str, S}
+ end.
+
+namespace_info([], _) ->
+ [];
+namespace_info(Prefix, Local) ->
+ {Prefix, lists:reverse(Local)}.
+
+isLatin1(_Ch,false) ->
+ false;
+isLatin1(Ch,_) when Ch > 255 ->
+ false;
+isLatin1(_,_) ->
+ true.
+
+%%%%%%% [11] SystemLiteral
+
+scan_system_literal([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_system_literal(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_system_literal("\"" ++ T, S) ->
+ scan_system_literal(T, S, $", []);
+scan_system_literal("'" ++ T, S) ->
+ scan_system_literal(T, S, $', []).
+
+
+scan_system_literal([], S=#xmerl_scanner{continuation_fun = F},
+ Delimiter, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_system_literal(MoreBytes,S1,Delimiter,Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_system_literal([H|T], S, H, Acc) ->
+ {lists:reverse(Acc), T, S#xmerl_scanner{col = S#xmerl_scanner.col+1}};
+scan_system_literal("#"++_R, S, _H, _Acc) ->
+ %% actually not a fatal error
+ ?fatal(fragment_identifier_in_system_literal,S);
+scan_system_literal(Str, S, Delimiter, Acc) ->
+ {Ch,T} = to_ucs(S#xmerl_scanner.encoding,Str),
+ scan_system_literal(T, S#xmerl_scanner{col = S#xmerl_scanner.col+1},
+ Delimiter, [Ch|Acc]).
+
+
+%%%%%%% [12] PubidLiteral
+
+scan_pubid_literal([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_pubid_literal(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_pubid_literal([H|T], S) when H == $"; H == $' ->
+ scan_pubid_literal(T, S#xmerl_scanner{col = S#xmerl_scanner.col+1}, H, []);
+scan_pubid_literal([H|_T], S) ->
+ ?fatal({invalid_pubid_char, H}, S).
+
+
+scan_pubid_literal([], S=#xmerl_scanner{continuation_fun = F},
+ Delimiter, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_pubid_literal(MoreBytes,S1,Delimiter,Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_pubid_literal([H|T], S, H, Acc) ->
+ {lists:reverse(Acc), T, S#xmerl_scanner{col = S#xmerl_scanner.col+1}};
+scan_pubid_literal(Str = [H|_], S, Delimiter, Acc) when ?whitespace(H) ->
+ %% Before matching public identifiers, all whitespace must be normalized,
+ %% so we do that here
+ {_, T, S1} = pub_id_strip(Str, S),
+ scan_pubid_literal(T, S1, Delimiter, [16#20|Acc]);
+scan_pubid_literal([H|T], S, Delimiter, Acc) ->
+ case is_pubid_char(H) of
+ true ->
+ scan_pubid_literal(
+ T, S#xmerl_scanner{col = S#xmerl_scanner.col+1},
+ Delimiter, [H|Acc]);
+ false ->
+ ?fatal({invalid_pubid_char, H}, S)
+ end.
+
+%% We do not match whitespace here, even though they're allowed in public
+%% identifiers. This is because we normalize this whitespace as we scan
+%% (see above in scan_pubid_literal())
+%%
+is_pubid_char(X) when X >= $a, X =< $z -> true;
+is_pubid_char(X) when X >= $A, X =< $Z -> true;
+is_pubid_char(X) when X >= $0, X =< $9 -> true;
+is_pubid_char(X) ->
+ lists:member(X, "-'()+,./:=?;!*#@$_%").
+
+
+%%%%%%% [46] contentspec
+
+scan_contentspec([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_contentspec(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_contentspec("EMPTY" ++ T, S0) ->
+ ?bump_col(5),
+ {empty, T, S};
+scan_contentspec("ANY" ++ T, S0) ->
+ ?bump_col(3),
+ {any, T, S};
+scan_contentspec("%" ++ _T, S=#xmerl_scanner{environment=prolog}) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_contentspec("%" ++ T, S0) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2} = strip(ExpRef ++ T1,S1),
+ scan_contentspec(T2, S2);
+scan_contentspec("(" ++ T, S0) ->
+ ?bump_col(1),
+ ?strip1,
+ scan_elem_content(T1, S1);
+scan_contentspec(_Str,S) ->
+ ?fatal(unexpected_character,S).
+
+
+%%%%%%% [47] children
+%%%%%%% [51] Mixed
+
+scan_elem_content(T, S) ->
+ scan_elem_content(T, S, _Context = children, _Mode = unknown, _Acc = []).
+
+scan_elem_content([], S=#xmerl_scanner{continuation_fun = F},
+ Context, Mode, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes,S1) -> scan_elem_content(MoreBytes,S1,Context,Mode,Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_elem_content(")" ++ T, S0, Context, Mode0, Acc0) ->
+ ?bump_col(1),
+ {Mode, Acc} = case {Mode0, Acc0} of
+ {unknown, [_X]} ->
+ {seq, Acc0};
+ {M, _L} when M == seq; M == choice ->
+ {Mode0, lists:reverse(Acc0)}
+ end,
+ {Occurrence, T1, S1} = scan_occurrence(T, S),
+ vc_No_Duplicate_Types(S,Context,Acc),
+ case {Occurrence, Context,Acc} of
+ {once, mixed,['#PCDATA']} -> ok; % It is not ok when there are
+ % more names than '#PCDATA'
+ % and no '*'.
+ {'*', mixed,_} -> ok;
+ {Other, mixed,_} ->
+ ?fatal({illegal_for_mixed_content, Other}, S1);
+ _ ->
+ ok
+ end,
+ ?strip2,
+ {format_elem_content({Occurrence, {Mode, Acc}}), T2, S2};
+scan_elem_content("#PCDATA" ++ _T, S, not_mixed, _Mode, _Acc) ->
+ ?fatal({error,{extra_set_of_parenthesis}},S);
+scan_elem_content("#PCDATA" ++ _T, S, _Cont, Mode, Acc)
+ when Mode==choice;Mode==seq;Acc/=[] ->
+ ?fatal({error,{invalid_format_of_mixed_content}},S);
+scan_elem_content("#PCDATA" ++ T, S0, _Context, Mode, Acc) ->
+ ?bump_col(7),
+ ?strip1,
+ scan_elem_content(T1, S1, mixed, Mode, ['#PCDATA'|Acc]);
+scan_elem_content("," ++ _T, S, _Context, choice, _Acc) ->
+ ?fatal({mixing_comma_and_vertical_bar_in_content_model},S);
+scan_elem_content("," ++ T, S0, Context, _Mode, Acc) ->
+ ?bump_col(1),
+ ?strip1,
+ scan_elem_content2(T1, S1, Context, seq, Acc);
+scan_elem_content("|" ++ _T, S, _Context, seq, _Acc) ->
+ ?fatal({mixing_comma_and_vertical_bar_in_content_model},S);
+scan_elem_content("|" ++ T, S0, Context, _Mode, Acc) ->
+ ?bump_col(1),
+ ?strip1,
+ scan_elem_content2(T1, S1, Context, choice, Acc);
+scan_elem_content(T, S, Context, Mode, Acc) ->
+ scan_elem_content2(T, S, Context, Mode, Acc).
+
+scan_elem_content2("(" ++ _T, S, mixed, _Mode, _Acc) ->
+ ?fatal({error,
+ {element_names_must_not_be_parenthesized_in_mixed_content}},S);
+scan_elem_content2("(" ++ T, S0, Context, Mode, Acc) ->
+ ?bump_col(1),
+ ?strip1,
+ {Inner, T2, S2} = scan_elem_content(T1, S1, not_mixed, unknown, []),
+ scan_elem_content(T2, S2, Context, Mode, [Inner|Acc]);
+scan_elem_content2("%" ++ _T,S=#xmerl_scanner{environment=prolog},_Context,_Mode,_Acc) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+scan_elem_content2("%" ++ T, S0, Context, Mode, Acc) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ ExpRef = expand_pe_reference(PERefName, S1,as_PE),
+ {_,T2,S2}=strip(ExpRef++T1,S1),
+ scan_elem_content(T2, S2, Context, Mode, Acc);
+scan_elem_content2(T, S, Context, Mode, Acc) ->
+ {Name, _NameStr, T1, S1} = scan_name(T, S),
+ {Occurrence, T2, S2} = scan_occurrence(T1, S1),
+ case {Occurrence, Context} of
+ {once, mixed} -> ok;
+ {Other, mixed} ->
+ ?fatal({illegal_for_mixed_content, Other}, S1);
+ _ ->
+ ok
+ end,
+ ?strip3,
+ mandatory_delimeter_wfc(T3,S3),
+ NewAcc = [format_elem_content({Occurrence, Name}) | Acc],
+ scan_elem_content(T3, S3, Context, Mode, NewAcc).
+
+
+format_elem_content({once, What}) -> What;
+format_elem_content(Other) -> Other.
+
+
+scan_occurrence([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_occurrence(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_occurrence([$?|T], S0) ->
+ ?bump_col(1),
+ {'?', T, S};
+scan_occurrence([$+|T], S0) ->
+ ?bump_col(1),
+ {'+', T, S};
+scan_occurrence([$*|T], S0) ->
+ ?bump_col(1),
+ {'*', T, S};
+scan_occurrence(T, S) ->
+ {once, T , S}.
+
+%%% Tests of Validity Constraints
+
+
+%% first part of VC: Name Token
+vc_Valid_Char(_AT,C,S) ->
+ case xmerl_lib:is_namechar(C) of
+ true ->
+ ok;
+ _ ->
+ ?fatal({error,{validity_constraint_Name_Token,C}},S)
+ end.
+
+
+
+vc_ID_Attribute_Default(_,#xmerl_scanner{validation=Valid})
+ when Valid /= dtd ->
+ ok;
+vc_ID_Attribute_Default({_,'ID',_,Def,_},_S)
+ when Def=='#IMPLIED';Def=='#REQUIRED' ->
+ ok;
+vc_ID_Attribute_Default({_,'ID',_,Def,_},S) ->
+ ?fatal({error,{validity_constraint_error_ID_Attribute_Default,Def}},S).
+
+vc_Enumeration({_Name,{_,NameList},DefaultVal,_,_},S)
+ when is_list(DefaultVal) ->
+ case lists:member(list_to_atom(DefaultVal),NameList) of
+ true ->
+ ok;
+ _ ->
+ ?fatal({error,{vc_enumeration,list_to_atom(DefaultVal),NameList}},S)
+ end;
+vc_Enumeration({_Name,{_,_NameList},_DefaultVal,_,_},_S) ->
+ ok.
+
+vc_Entity_Name({_Name,'ENTITY',DefaultVal,_,_},S) when is_list(DefaultVal) ->
+ Read = S#xmerl_scanner.rules_read_fun,
+ case Read(entity,list_to_atom(DefaultVal),S) of
+ {_,external,{_,{ndata,_}}} ->
+ ok;
+ _ -> ?fatal({error,{vc_Entity_Name,list_to_atom(DefaultVal)}},S)
+ end;
+vc_Entity_Name({_Name,'ENTITY',_,_,_},_S) ->
+ ok;
+vc_Entity_Name({_,'ENTITIES',DefaultVal,_,_},S) when is_list(DefaultVal) ->
+ Read = S#xmerl_scanner.rules_read_fun,
+ NameListFun = fun([],Acc,_St,_Fun) ->
+ lists:reverse(Acc);
+ (Str,Acc,St,Fun) ->
+ {N,_,St2,Str2} = scan_name(Str,St),
+ Fun(Str2,[N|Acc],St2,Fun)
+ end,
+ NameList = NameListFun(DefaultVal,[],S,NameListFun),
+ VcFun =
+ fun(X) ->
+ case Read(entity,X,S) of
+ {_,external,{_,{ndata,_}}} ->
+ ok;
+ _ -> ?fatal({error,{vc_Entity_Name,X}},S)
+ end
+ end,
+ lists:foreach(VcFun,NameList);
+vc_Entity_Name({_,'ENTITIES',_,_,_},_S) ->
+ ok.
+
+vc_No_Duplicate_Types(#xmerl_scanner{validation=dtd} = S,mixed,Acc) ->
+ CheckDupl =
+ fun([H|T],F) ->
+ case lists:member(H,T) of
+ true ->
+ ?fatal({no_duplicate_types_allowed,H},S);
+ _ -> F(T,F)
+ end;
+ ([],_) -> ok
+ end,
+ CheckDupl(Acc,CheckDupl);
+vc_No_Duplicate_Types(_,_,_) ->
+ ok.
+
+
+%%% Tests of Well-Formededness Constraints
+
+
+mandatory_delimeter_wfc(","++_T,_S) ->
+ ok;
+mandatory_delimeter_wfc("|"++_T,_S) ->
+ ok;
+mandatory_delimeter_wfc(")"++_T,_S) ->
+ ok;
+mandatory_delimeter_wfc("%"++_T,_S) ->
+ %% a parameter reference is ok
+ ok;
+mandatory_delimeter_wfc(T,S) ->
+ ?fatal({comma_or_vertical_bar_mandatory_between_names_in_content_model,T},S).
+
+
+wfc_unique_att_spec([],_S) ->
+ ok;
+wfc_unique_att_spec([#xmlAttribute{name=N}|Atts],S) ->
+ case lists:keymember(N,#xmlAttribute.name,Atts) of
+ true ->
+ ?fatal({error,{unique_att_spec_required,N}},S);
+ _ ->
+ wfc_unique_att_spec(Atts,S)
+ end.
+
+wfc_legal_char(Chars,S) when is_list(Chars)->
+ {Ch,Rest} = to_ucs(S#xmerl_scanner.encoding,Chars),
+ case xmerl_lib:is_char(Ch) of
+ true ->
+ {Ch,Rest};
+ _ ->
+ ?fatal({error,{wfc_Legal_Character,Ch}},S)
+ end;
+wfc_legal_char(Ch,S) ->
+ case xmerl_lib:is_char(Ch) of
+ true ->
+ {Ch,[]};
+ _ ->
+ ?fatal({error,{wfc_Legal_Character,Ch}},S)
+ end.
+
+
+wfc_whitespace_betw_attrs(WS,_S) when ?whitespace(WS) ->
+ ok;
+wfc_whitespace_betw_attrs($/,_S) ->
+ ok;
+wfc_whitespace_betw_attrs($>,_S) ->
+ ok;
+wfc_whitespace_betw_attrs(_,S) ->
+ ?fatal({whitespace_required_between_attributes},S).
+
+wfc_Entity_Declared({external,_},S=#xmerl_scanner{standalone=yes},Name) ->
+ ?fatal({reference_to_externally_defed_entity_standalone_doc,Name},S);
+wfc_Entity_Declared({external,_},_S,_) ->
+ ok;
+wfc_Entity_Declared(_Env,_S,_) ->
+ ok.
+
+wfc_Internal_parsed_entity(internal,Value,S) ->
+ %% WFC test that replacement text matches production content
+ scan_content(Value,S#xmerl_scanner{environment=internal_parsed_entity},
+ _Name=[],[],S#xmerl_scanner.space,_Lang=[],_Prnt=[],
+ #xmlNamespace{});
+wfc_Internal_parsed_entity(_,_,_) ->
+ ok.
+
+
+vc_Element_valid(_Name,#xmerl_scanner{environment=internal_parsed_entity}) ->
+ ok;
+vc_Element_valid(Name,S=#xmerl_scanner{rules_read_fun=Read,
+ validation=dtd}) ->
+ case Read(elem_def,Name,S) of
+ #xmlElement{elementdef=undeclared} ->
+ ?fatal({error,{error_missing_element_declaration_in_DTD,Name}},S); undefined ->
+ ?fatal({error,{error_missing_element_declaration_in_DTD,Name}},S); _ -> ok
+ end;
+vc_Element_valid(_,_) ->
+ ok.
+
+%%%%%%% [74] PEDef
+
+
+scan_pe_def([], S=#xmerl_scanner{continuation_fun = F}, PEName) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_pe_def(MoreBytes, S1, PEName) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_pe_def("'" ++ T, S0, PEName) ->
+ ?bump_col(1),
+ scan_entity_value(T, S, $', PEName,parameter);
+scan_pe_def("\"" ++ T, S0, PEName) ->
+ ?bump_col(1),
+ scan_entity_value(T, S, $", PEName,parameter);
+scan_pe_def(Str, S, _PEName) ->
+ scan_external_id(Str, S).
+
+
+%%%%%%% [82] NotationDecl
+
+scan_notation_decl(T, #xmerl_scanner{rules_write_fun = Write,
+ rules_read_fun=Read,
+ rules_delete_fun=Delete} = S) ->
+ {Name, _NameStr, T1, S1} = scan_name_no_colons(T, S),
+ {_,T2,S2} = mandatory_strip(T1,S1),
+ {Def, T3, S3} = scan_notation_decl1(T2, S2),
+ ?strip4,
+ T5 = scan_mandatory(">",T4,1,S4,expected_end_tag_notation_declaration),
+% ">" ++ T5 = T4,
+ case Read(notation,Name,S) of
+ undeclared -> Delete(notation,Name,S4);
+ _ -> ok
+ end,
+ S5 = Write(notation, Name, Def, S4),
+ {T5, S5}.
+
+scan_notation_decl1([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_notation_decl1(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_notation_decl1("SYSTEM" ++ T, S0) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {SL, T2, S2} = scan_system_literal(T1, S1),
+ {{system, SL}, T2, S2};
+scan_notation_decl1("PUBLIC" ++ T, S0) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {PIDL, T2, S2} = scan_pubid_literal(T1, S1),
+ ?strip3,
+ case T3 of
+ ">" ++ _ ->
+ {{public, PIDL}, T3,
+ S3#xmerl_scanner{col = S3#xmerl_scanner.col+1}};
+ _ ->
+ {SL, T4, S4} = scan_system_literal(T3, S3),
+ {{public, PIDL, SL}, T4, S4}
+ end.
+
+%%%%%%% [75] ExternalID
+
+scan_external_id([], S=#xmerl_scanner{continuation_fun = F}) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_external_id(MoreBytes, S1) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_external_id("SYSTEM" ++ T, S0) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {SL, T2, S2} = scan_system_literal(T1, S1),
+ {{system, SL}, T2, S2};
+scan_external_id("PUBLIC" ++ T, S0) ->
+ ?bump_col(6),
+ {_,T1,S1} = mandatory_strip(T,S),
+ {PIDL, T2, S2} = scan_pubid_literal(T1, S1),
+ {_,T3,S3} = mandatory_strip(T2,S2),
+ {SL, T4, S4} = scan_system_literal(T3, S3),
+ {{public, PIDL, SL}, T4, S4}.
+
+
+%%%%%%% [9] EntityValue
+
+%% Note that we have two different scan functions for EntityValue
+%% They differ in that this one checks for recursive calls to the same
+%% parameter entity.
+
+scan_entity_value(Str, S, Delim, Name, Namespace) ->
+ scan_entity_value(Str, S, Delim, _Acc = [], Name, Namespace,[]).
+
+
+scan_entity_value([], S=#xmerl_scanner{environment={external,{entity,_}}},
+ _Delim,Acc,_,_,[]) ->
+ {lists:flatten(lists:reverse(Acc)), [], S};
+scan_entity_value([], S=#xmerl_scanner{environment={external,{entity,_}},
+ validation=dtd},
+ _Delim,_Acc,PEName,_,_) ->
+ {{error,{failed_VC_Proper_Declaration_PE_Nesting,1,PEName}},[],S};
+scan_entity_value([],S,
+ no_delim,Acc,_,_,[]) ->
+ {lists:flatten(lists:reverse(Acc)),[],S};
+scan_entity_value([],S=#xmerl_scanner{validation=dtd},
+ no_delim,_Acc,PEName,_,_PENesting) ->
+ {{error,{failed_VC_Proper_Declaration_PE_Nesting,2,PEName}},[],S};
+scan_entity_value([], S=#xmerl_scanner{continuation_fun = F},
+ Delim, Acc, PEName,Namespace,PENesting) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) ->
+ scan_entity_value(MoreBytes,S1,
+ Delim,Acc,PEName,Namespace,PENesting)
+ end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_entity_value([Delim|T], S=#xmerl_scanner{validation=dtd},
+ Delim,_Acc,PEName,_NS,PENesting) when length(PENesting) /= 0 ->
+ {{error,{failed_VC_Proper_Declaration_PE_Nesting,3,PEName}},T,S};
+scan_entity_value([Delim|T], S0,
+ Delim, Acc, _PEName,_NS,_PENesting) ->
+ ?bump_col(1),
+ {lists:flatten(lists:reverse(Acc)), T, S};
+scan_entity_value("%" ++ _T,S=#xmerl_scanner{environment=prolog},_,_,_,_,_) ->
+ ?fatal({error,{wfc_PEs_In_Internal_Subset}},S);
+% %% This is a PEdecl in an external entity
+% scan_entity_value([$%,WS|T], S0, Delim, Acc, PEName,Namespace,PENesting)
+% when ?whitespace(WS) ->
+% ?bump_col(2),
+% scan_entity_value(T, S, Delim, [WS,$%|Acc], PEName,Namespace,PENesting);
+scan_entity_value("%" ++ T, S0, Delim, Acc, PEName,Namespace,PENesting) ->
+ ?bump_col(1),
+ {PERefName, T1, S1} = scan_pe_reference(T, S),
+ if PERefName == PEName,Namespace==parameter ->
+ ?fatal({illegal_recursion_in_PE, PEName}, S1);
+ true ->
+ {ExpandedRef,S2} =
+ case expand_pe_reference(PERefName, S1, in_literal) of
+ %% actually should pe ref be expanded as_PE but
+ %% handle whitespace explicitly in this case.
+ Tuple when is_tuple(Tuple) ->
+ %% {system,URI} or {public,URI}
+ %% Included in literal.
+ {ExpRef,Sx}=fetch_not_parse(Tuple,S1),
+ {EntV,_,_S2} =
+ scan_entity_value(ExpRef, Sx, no_delim,[],
+ PERefName,parameter,[]),
+ %% should do an update Write(parameter_entity)
+ %% so next expand_pe_reference is faster
+ {EntV,_S2};
+ ExpRef ->
+ {ExpRef,S1}
+ end,
+ %% single or duoble qoutes are not treated as delimeters
+ %% in passages "included in literal"
+ S3 = S2#xmerl_scanner{col=S2#xmerl_scanner.col+1},
+ {Acc2,_,S4} = scan_entity_value(ExpandedRef,S3,no_delim,Acc,
+ PEName,Namespace,[]),
+% {_,T2,S5} = strip(" "++T1,S4),
+ scan_entity_value(T1,S4#xmerl_scanner{line=S3#xmerl_scanner.line,
+ col=S3#xmerl_scanner.col},
+ Delim,lists:reverse(Acc2),
+ PEName,Namespace,PENesting)
+% scan_entity_value(T1,S4,Delim,lists:reverse(Acc2),
+% PEName,Namespace,PENesting)
+ end;
+scan_entity_value("&" ++ T, S0, Delim, Acc, PEName,Namespace,PENesting) ->
+ %% This is either a character entity or a general entity (internal
+ %% or external) reference. An internal general entity shall not be
+ %% expanded in an entity def XML1.0 section 4.5.
+ ?bump_col(1),
+ case T of
+ "#"++_T ->
+ {ExpRef, T1, S1} = scan_reference(T, S),
+ Tok = pe_nesting_token(ExpRef++T1,Namespace,S1#xmerl_scanner.validation),
+ case markup_delimeter(ExpRef) of
+ true ->
+ scan_entity_value(T1, S1, Delim, [ExpRef|Acc], PEName,
+ Namespace,pe_push(Tok,PENesting,S1));
+ _ ->
+ ExpRef2 = string_to_char_set(S#xmerl_scanner.encoding,ExpRef),
+ scan_entity_value(ExpRef2 ++ T1, S1, Delim, Acc, PEName,
+ Namespace,pe_push(Tok,PENesting,S1))
+ end;
+ _ -> %% General Entity is bypassed, though must check for
+ %% recursion: save referenced name now and check for
+ %% recursive reference after the whole entity definition is
+ %% completed.
+ {Name, _NamespaceInfo, T1, S1} = scan_name(T,S),
+ T2=scan_mandatory(";",T1,1,S1,expected_entity_reference_semicolon),
+ S2=save_refed_entity_name(Name,PEName,S1),
+ scan_entity_value(T2,S2,Delim,[";",atom_to_list(Name),"&"|Acc],PEName,Namespace,PENesting)
+ end;
+%% The following clauses is for PE Nesting VC constraint
+%% Start delimeter for ConditionalSection
+scan_entity_value("<!["++T,S0,Delim,Acc,PEName,parameter=NS,PENesting)->
+ ?bump_col(3),
+ scan_entity_value(T,S,Delim,["<!["|Acc],PEName,NS,
+ pe_push("<![",PENesting,S));
+%% Start delimeter for ConditionalSection (2)
+scan_entity_value("["++T,S0,Delim,Acc,PEName,parameter=NS,PENesting)->
+ ?bump_col(1),
+ scan_entity_value(T,S,Delim,["["|Acc],PEName,NS,
+ pe_push("[",PENesting,S));
+%% Start delimeter for comment
+scan_entity_value("<!--"++T,S0,Delim,Acc,PEName,parameter=NS,PENesting)->
+ ?bump_col(4),
+ scan_entity_value(T,S,Delim,["<!--"|Acc],PEName,NS,
+ pe_push("<!--",PENesting,S));
+%% Start delimeter for ElementDecl, AttListDecl,EntityDecl,NotationDecl
+scan_entity_value("<!"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(2),
+ scan_entity_value(T,S,Delim,["<!"|Acc],PEName,NS,
+ pe_push("<!",PENesting,S));
+%% Start delimeter for PI
+scan_entity_value("<?"++T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(2),
+ scan_entity_value(T,S,Delim,["<?"|Acc],PEName,NS,
+ pe_push("<?",PENesting,S));
+%% Start delimeter for elements that matches the proper stop delimeter
+%% for a markupdecl
+scan_entity_value("</"++T,S0,Delim,Acc,PEName,parameter=NS,PENesting)->
+ ?bump_col(2),
+ scan_entity_value(T,S,Delim,["</"|Acc],PEName,NS,
+ pe_push("</",PENesting,S));
+scan_entity_value("<"++T,S0,Delim,Acc,PEName,parameter=NS,PENesting)->
+ ?bump_col(1),
+ scan_entity_value(T,S,Delim,["<"|Acc],PEName,NS,
+ pe_push("<",PENesting,S));
+%% Delimeter for contentspecs
+scan_entity_value("("++T,S0,Delim,Acc,PEName,parameter=NS,PENesting)->
+ ?bump_col(1),
+ scan_entity_value(T,S,Delim,["("|Acc],PEName,NS,
+ pe_push("(",PENesting,S));
+%% Stop delimeter for ElementDecl, AttListDecl,EntityDecl,NotationDecl
+scan_entity_value(">"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(1),
+ scan_entity_value(T,S,Delim,[">"|Acc],PEName,NS,
+ pe_pop(">",PENesting,S));
+%% Stop delimeter for PI
+scan_entity_value("?>"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(2),
+ scan_entity_value(T,S,Delim,["?>"|Acc],PEName,NS,
+ pe_pop("?>",PENesting,S));
+%% Stop delimeter for comment
+scan_entity_value("-->"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(3),
+ scan_entity_value(T,S,Delim,["-->"|Acc],PEName,NS,
+ pe_pop("-->",PENesting,S));
+%% Stop delimeter for ConditionalSection
+scan_entity_value("]]>"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(3),
+ scan_entity_value(T,S,Delim,["]]>"|Acc],PEName,NS,
+ pe_pop("]]>",PENesting,S));
+%% Stop delimeter added to match a content start delimeter included
+scan_entity_value("/>"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(2),
+ scan_entity_value(T,S,Delim,["/>"|Acc],PEName,NS,
+ pe_pop("/>",PENesting,S));
+scan_entity_value(")"++ T,S0,Delim,Acc,PEName, parameter=NS,PENesting) ->
+ ?bump_col(1),
+ scan_entity_value(T,S,Delim,[")"|Acc],PEName,NS,
+ pe_pop(")",PENesting,S));
+scan_entity_value("\n"++T, S, Delim, Acc, PEName,Namespace,PENesting) ->
+ scan_entity_value(T, S#xmerl_scanner{line=S#xmerl_scanner.line+1},
+ Delim, ["\n"|Acc], PEName,Namespace,PENesting);
+scan_entity_value(Str, S0, Delim, Acc, PEName,Namespace,PENesting) ->
+ {Ch,T} = to_ucs(S0#xmerl_scanner.encoding,Str),
+ case xmerl_lib:is_char(Ch) of
+ true ->
+ ?bump_col(1),
+ scan_entity_value(T, S, Delim, [Ch|Acc], PEName,Namespace,PENesting);
+ false ->
+ ?fatal({unexpected_char,Ch}, S0)
+ end.
+
+
+
+save_refed_entity_name(Name,PEName,S) ->
+ case predefined_entity(Name) of
+ true ->
+ S;
+ _ ->
+ save_refed_entity_name1(Name,PEName,S)
+ end.
+
+save_refed_entity_name1(Name,PEName,
+ S=#xmerl_scanner{entity_references=ERefs}) ->
+ case lists:keysearch(PEName,1,ERefs) of
+ {value,{_,Refs}} ->
+ NewRefs =
+ case lists:member(Name,Refs) of
+ true ->Refs;
+ _ -> [Name|Refs]
+ end,
+ S#xmerl_scanner{entity_references=lists:keyreplace(PEName,1,ERefs,
+ {PEName,NewRefs})
+ };
+ _ ->
+ S#xmerl_scanner{entity_references=[{PEName,[Name]}|ERefs]}
+ end.
+
+
+
+pe_push(Tok,Stack,_S) when Tok=="<!";Tok=="<?";Tok=="<!--";Tok=="<![";
+ Tok=="[";Tok=="<";Tok=="</";Tok=="(" ->
+ [Tok|Stack];
+pe_push(Tok,Stack,#xmerl_scanner{validation=dtd})
+ when Tok==")";Tok==">";Tok=="?>";Tok=="]]>";Tok=="-->";Tok=="/>"->
+ [Tok|Stack];
+pe_push(_,Stack,_S) ->
+ Stack.
+
+pe_pop(">",["<!"|Rest],_S) -> Rest;
+pe_pop("?>",["<?"|Rest],_S) -> Rest;
+pe_pop("-->",["<!--"|Rest],_S) -> Rest;
+pe_pop("]]>",["[","<!["|Rest],_S) -> Rest;
+pe_pop("/>",["<"|Rest],_S) -> Rest;
+pe_pop(">",["<"|Rest],_S) -> Rest;
+pe_pop(">",["</"|Rest],_S) -> Rest;
+pe_pop(")",["("|Rest],_S) -> Rest;
+pe_pop(Token,_Stack,S=#xmerl_scanner{validation=dtd}) ->
+ ?fatal({error,{failed_VC_Proper_Declaration_PE_Nesting,5,Token}},S);
+pe_pop(_,Rest,_) ->
+ Rest.
+
+pe_nesting_token("<!"++_T,parameter,dtd) -> "<!";
+pe_nesting_token("<?"++_T,parameter,dtd) -> "<?";
+pe_nesting_token("<!--"++_T,parameter,dtd) -> "<!--";
+pe_nesting_token("<!["++_T,parameter,dtd) -> "<![";
+pe_nesting_token("["++_T,parameter,dtd) -> "[";
+pe_nesting_token("("++_T,parameter,dtd) -> "(";
+pe_nesting_token(">"++_T,parameter,dtd) -> ">";
+pe_nesting_token("?>"++_T,parameter,dtd) -> "?>";
+pe_nesting_token("-->"++_T,parameter,dtd) -> "-->";
+pe_nesting_token("]]>"++_T,parameter,dtd) -> "]]>";
+pe_nesting_token(")"++_T,parameter,dtd) -> ")";
+pe_nesting_token("/>"++_T,parameter,dtd) -> "/>";
+pe_nesting_token(_,_,_) -> false.
+
+predefined_entity(amp) -> true;
+predefined_entity(lt) -> true;
+predefined_entity(gt) -> true;
+predefined_entity(apos) -> true;
+predefined_entity(quot) -> true;
+predefined_entity(_) -> false.
+
+check_entity_recursion(EName,
+ S=#xmerl_scanner{entity_references=EntityRefList}) ->
+ Set = sofs:family(EntityRefList),
+ case catch sofs:family_to_digraph(Set, [acyclic]) of
+ {'EXIT',{cyclic,_}} ->
+ ?fatal({illegal_recursion_in_Entity, EName}, S);
+ DG ->
+ digraph:delete(DG),
+ ok
+ end.
+
+
+
+
+%%%%%%% [15] Comment
+scan_comment(Str, S) ->
+ scan_comment(Str, S, _Pos = undefined, _Parents = [], _Lang = []).
+
+scan_comment(Str,S=#xmerl_scanner{col=C,event_fun=Event}, Pos, Parents, Lang) ->
+ Comment = #xmlComment{pos = Pos,
+ parents = Parents,
+ language = Lang,
+ value = undefined},
+ S1 = #xmerl_scanner{} = Event(#xmerl_event{event = started,
+ line = S#xmerl_scanner.line,
+ col = C,
+ pos = Pos,
+ data = Comment}, S),
+
+ scan_comment1(Str, S1, Pos, Comment, _Acc = []).
+
+scan_comment1([], S=#xmerl_scanner{continuation_fun = F},
+ Pos, Comment, Acc) ->
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> scan_comment1(MoreBytes, S1, Pos, Comment, Acc) end,
+ fun(S1) -> ?fatal(unexpected_end, S1) end,
+ S);
+scan_comment1("-->" ++ T, S0 = #xmerl_scanner{col = C,
+ event_fun = Event,
+ hook_fun = Hook},
+ _Pos, Comment, Acc) ->
+ ?bump_col(3),
+ Comment1 = Comment#xmlComment{value = lists:reverse(Acc)},
+ S1=#xmerl_scanner{}=Event(#xmerl_event{event = ended,
+ line=S#xmerl_scanner.line,
+ col = C,
+ data = Comment1}, S),
+ {Ret, S2} = Hook(Comment1, S1),
+ {_,T3,S3}=strip(T,S2),
+ {Ret,T3,S3};
+scan_comment1("--"++T,S,_Pos,_Comment,_Acc) ->
+ ?fatal({invalid_comment,"--"++[hd(T)]}, S);
+scan_comment1("\n" ++ T, S=#xmerl_scanner{line = L}, Pos, Cmt, Acc) ->
+ scan_comment1(T, S#xmerl_scanner{line=L+1,col=1},Pos, Cmt, "\n" ++ Acc);
+scan_comment1("\r\n" ++ T, S=#xmerl_scanner{line = L}, Pos, Cmt, Acc) ->
+ %% CR followed by LF is read as a single LF
+ scan_comment1(T, S#xmerl_scanner{line=L+1,col=1}, Pos, Cmt, "\n" ++ Acc);
+scan_comment1("\r" ++ T, S=#xmerl_scanner{line = L}, Pos, Cmt, Acc) ->
+ %% CR not followed by LF is read as a LF
+ scan_comment1(T, S#xmerl_scanner{line=L+1,col=1}, Pos, Cmt, "\n" ++ Acc);
+scan_comment1(Str, S=#xmerl_scanner{col = C}, Pos, Cmt, Acc) ->
+ {Ch,T} = wfc_legal_char(Str,S),
+ scan_comment1(T, S#xmerl_scanner{col=C+1}, Pos, Cmt, [Ch|Acc]).
+
+%%%%%%%
+
+scan_markup_completion_gt([$>|_R]=T,S) ->
+ {T,S};
+scan_markup_completion_gt([$%|T],S0) ->
+ ?bump_col(1),
+ {Name,T1,S1} = scan_pe_reference(T,S),
+ ExpandedRef = expand_pe_reference(Name,S1,as_PE),
+ {_,T2,S2} = strip(ExpandedRef++T1,S1),
+ scan_markup_completion_gt(T2,S2);
+scan_markup_completion_gt(T,S) ->
+ ?fatal({error,{malformed_syntax_entity_completion,T}},S).
+
+
+scan_mandatory(Pattern,T,N,S,ErrorMsg) ->
+ case lists:prefix(Pattern,T) of
+ true ->
+ lists:nthtail(N,T);
+ _ ->
+ ?fatal(ErrorMsg,S)
+ end.
+
+
+strip(Str,S) ->
+ strip(Str,S,all).
+
+strip([], S=#xmerl_scanner{continuation_fun = F},_) ->
+ ?dbg("cont()... stripping whitespace~n", []),
+ F(fun(MoreBytes, S1) -> strip(MoreBytes, S1) end,
+ fun(S1) -> {[], [], S1} end,
+ S);
+strip("\s" ++ T, S=#xmerl_scanner{col = C},Lim) ->
+ strip(T, S#xmerl_scanner{col = C+1},Lim);
+strip("\t" ++ _T, S ,no_tab) ->
+ ?fatal({error,{no_tab_allowed}},S);
+strip("\t" ++ T, S=#xmerl_scanner{col = C},Lim) ->
+ strip(T, S#xmerl_scanner{col = expand_tab(C)},Lim);
+strip("\n" ++ T, S=#xmerl_scanner{line = L},Lim) ->
+ strip(T, S#xmerl_scanner{line = L+1, col = 1},Lim);
+strip("\r\n" ++ T, S=#xmerl_scanner{line = L},Lim) ->
+ %% CR followed by LF is read as a single LF
+ strip(T, S#xmerl_scanner{line = L+1, col = 1},Lim);
+strip("\r" ++ T, S=#xmerl_scanner{line = L},Lim) ->
+ %% CR not followed by LF is read as a LF
+ strip(T, S#xmerl_scanner{line = L+1, col = 1},Lim);
+strip(Str, S,_Lim) ->
+ {[], Str, S}.
+
+%% demands a whitespace, though a parameter entity is ok, it will
+%% expand with a whitespace on each side.
+mandatory_strip([],S) ->
+ ?fatal({error,{whitespace_was_expected}},S);
+mandatory_strip(T,S) when ?whitespace(hd(T)) ->
+ strip(T,S,all);
+mandatory_strip([$%|T],S) when ?whitespace(hd(T)) -> %this is not a PERefence, but an PEDeclaration
+ ?fatal({error,{whitespace_was_expected}},S);
+mandatory_strip([$%|_T]=T,S) ->
+ {[],T,S};
+mandatory_strip(_T,S) ->
+ ?fatal({error,{whitespace_was_expected}},S).
+
+%% strip but don't accept tab
+pub_id_strip(Str, S) ->
+ strip(Str,S,no_tab).
+
+
+normalize("&"++T,S,IsNorm) ->
+ case scan_reference(T, S) of
+ {ExpRef, T1, S1} when ?whitespace(hd(ExpRef)) ->
+ ExpRef2 = string_to_char_set(S#xmerl_scanner.encoding,ExpRef),
+ normalize(ExpRef2++T1,S1,IsNorm);
+ _ ->
+ {"&"++T,S,IsNorm}
+ end;
+normalize(T,S,IsNorm) ->
+ case strip(T,S) of
+ {_,T,S} ->
+ {T,S,IsNorm};
+ {_,T1,S1} ->
+ {T1,S1,true}
+ end.
+
+
+%% Optimization:
+%% - avoid building list of spaces or tabs;
+%% - avoid reverse;
+%% - compact two common indentation patterns.
+%% Note: only to be called when a \n was found.
+fast_accumulate_whitespace(" " ++ T, S, _) ->
+ fast_acc_spaces(T, S, 1);
+fast_accumulate_whitespace("\t"++T, S, _) ->
+ fast_acc_tabs(T, S, 1);
+fast_accumulate_whitespace("<"++_=R, S, _T) ->
+ #xmerl_scanner{common_data = CD, line = Line} = S,
+ {done, {element(3, CD), R, S#xmerl_scanner{col = 1, line = Line + 1}}};
+fast_accumulate_whitespace(_, S, T) ->
+ accumulate_whitespace(T, S, []).
+
+fast_acc_spaces(" " ++ T, S, N) ->
+ fast_acc_spaces(T, S, N + 1);
+fast_acc_spaces(T, S, N) ->
+ fast_acc_end(T, S, N, N, $\s, 1).
+
+fast_acc_tabs("\t" ++ T, S, N) ->
+ fast_acc_tabs(T, S, N + 1);
+fast_acc_tabs(T, S, N) ->
+ fast_acc_end(T, S, N, N * 8 + 1, $\t, 2).
+
+fast_acc_end(T, S, N, Col, C, CD_I) ->
+ #xmerl_scanner{common_data = CD, line = Line0} = S,
+ Line = Line0 + 1,
+ try
+ $< = hd(T),
+ {done,{element(N, element(CD_I, CD)), T,
+ S#xmerl_scanner{col = Col, line = Line}}}
+ catch _:_ ->
+ accumulate_whitespace(T, S, Line, Col, lists:duplicate(N, C)++"\n")
+ end.
+
+
+%%% @spec accumulate_whitespace(T::string(),S::global_state(),
+%%% atom(),Acc::string()) -> {Acc, T1, S1}
+%%%
+%%% @doc Function to accumulate and normalize whitespace.
+accumulate_whitespace(T, S, preserve, Acc) ->
+ accumulate_whitespace(T, S, Acc);
+accumulate_whitespace(T, S, normalize, Acc) ->
+ {_WsAcc, T1, S1} = accumulate_whitespace(T, S, []),
+ {[$\s|Acc], T1, S1}.
+
+accumulate_whitespace(T, S, Acc) ->
+ #xmerl_scanner{line = Line, col = Col} = S,
+ accumulate_whitespace(T, S, Line, Col, Acc).
+
+accumulate_whitespace([], S0, Line, Col, Acc) ->
+ #xmerl_scanner{continuation_fun = F} = S0,
+ S = S0#xmerl_scanner{line = Line, col = Col},
+ ?dbg("cont()...~n", []),
+ F(fun(MoreBytes, S1) -> accumulate_whitespace(MoreBytes, S1, Acc) end,
+ fun(S1) -> {Acc, [], S1} end,
+ S);
+accumulate_whitespace("\s" ++ T, S, Line, Col, Acc) ->
+ accumulate_whitespace(T, S, Line, Col+1, [$\s|Acc]);
+accumulate_whitespace("\t" ++ T, S, Line, Col, Acc) ->
+ accumulate_whitespace(T, S, Line, expand_tab(Col), [$\t|Acc]);
+accumulate_whitespace("\n" ++ T, S, Line, _Col, Acc) ->
+ accumulate_whitespace(T, S, Line+1, 1, [$\n|Acc]);
+accumulate_whitespace("\r\n" ++ T, S, Line, _Col, Acc) ->
+ %% CR followed by LF is read as a single LF
+ accumulate_whitespace(T, S, Line+1, 1, [$\n|Acc]);
+accumulate_whitespace("\r" ++ T, S, Line, _Col, Acc) ->
+ %% CR not followed by LF is read as a LF
+ accumulate_whitespace(T, S, Line+1, 1, [$\n|Acc]);
+accumulate_whitespace(Str, S, Line, Col, Acc) ->
+ {Acc, Str, S#xmerl_scanner{line = Line, col = Col}}.
+
+expand_tab(Col) ->
+ Rem = (Col-1) rem 8,
+ _NewCol = Col + 8 - Rem.
+
+%% validation_mode(Validation)
+%% Validation = off | dtd | schema | true | false
+%% true and false are obsolete
+validation_mode(false) ->
+ off;
+validation_mode(true) ->
+ dtd;
+validation_mode(Other) ->
+ Other.
+
+
+schemaLocations(El,#xmerl_scanner{schemaLocation=[]}) ->
+ schemaLocations(El);
+schemaLocations(El,#xmerl_scanner{schemaLocation=SL}) ->
+ case SL of
+ [{_,_}|_] ->
+ {ok,SL};
+ _ ->
+ schemaLocations(El)
+ end.
+
+schemaLocations(#xmlElement{attributes=Atts,xmlbase=_Base}) ->
+ Pred = fun(#xmlAttribute{name=schemaLocation}) -> false;
+ (#xmlAttribute{namespace={_,"schemaLocation"}}) -> false;
+ (_) -> true
+ end,
+ case lists:dropwhile(Pred,Atts) of
+ [#xmlAttribute{value=Paths}|_] ->
+
+ case string:tokens(Paths," ") of
+ L when length(L) > 0 ->
+ case length(L) rem 2 of
+ 0 ->
+ PairList =
+ fun([],_Fun) ->
+ [];
+ ([SLNS,SLLoc|Rest],Fun) ->
+ [{SLNS,SLLoc}|Fun(Rest,Fun)]
+ end,
+ {ok,PairList(L,PairList)};
+ _ ->
+ {error,{schemaLocation_attribute,namespace_location_not_in_pair}}
+ end;
+ _ ->
+ {error,{missing_schemaLocation}}
+ end;
+ [] ->
+ {error,{missing_schemaLocation}}
+ end.
+
+inherit_options(S) ->
+ %%io:format("xsdbase: ~p~n",[S#xmerl_scanner.xmlbase]),
+ [{xsdbase,S#xmerl_scanner.xmlbase}].
+
+handle_schema_result({XSDRes=#xmlElement{},_},S5) ->
+ {XSDRes,S5};
+handle_schema_result({error,Reason},S5) ->
+ ?fatal({failed_schema_validation,Reason},S5).
+
+%%% Helper functions
+
+fatal(Reason, S) ->
+ exit({fatal, {Reason,
+ {file,S#xmerl_scanner.filename},
+ {line,S#xmerl_scanner.line},
+ {col,S#xmerl_scanner.col}}}).
+
+%% preformat formats tokens in L1 and L2, L2 separated by Sep into a
+%% list
+preformat(L1,L2,Sep) ->
+ Format1= lists:flatten(lists:duplicate(length(L1)-1,"~s ")++"~s"),
+ Format2 = lists:flatten(lists:duplicate(length(L2)-1,
+ " ~s"++Sep)++" ~s"),
+
+ lists:flatten(io_lib:format(Format1++Format2,L1++L2)).
+
+
+%% BUG when we are many <!ATTLIST ..> balise none attributes has save in rules
+rules_write(Context, Name, Value, #xmerl_scanner{rules = T} = S) ->
+ case ets:lookup(T, {Context, Name}) of
+ [] ->
+ ets:insert(T, {{Context, Name}, Value});
+ _ ->
+ ok
+ end,
+ S.
+
+
+rules_read(Context, Name, #xmerl_scanner{rules = T}) ->
+ case ets:lookup(T, {Context, Name}) of
+ [] ->
+ undefined;
+ [{_, V}] ->
+ V
+ end.
+
+rules_delete(Context,Name,#xmerl_scanner{rules = T}) ->
+ ets:delete(T,{Context,Name}).
+
+to_ucs(Encoding, Chars) when Encoding=="utf-8"; Encoding == undefined ->
+ utf8_2_ucs(Chars);
+to_ucs(_,[C|Rest]) ->
+ {C,Rest}.
+
+utf8_2_ucs([A,B,C,D|Rest]) when A band 16#f8 =:= 16#f0,
+ B band 16#c0 =:= 16#80,
+ C band 16#c0 =:= 16#80,
+ D band 16#c0 =:= 16#80 ->
+ %% 11110vvv 10vvvvvv 10vvvvvv 10vvvvvv
+ case ((D band 16#3f) bor ((C band 16#3f) bsl 6) bor
+ ((B band 16#3f) bsl 12) bor ((A band 16#07) bsl 18)) of
+ Ch when Ch >= 16#10000 ->
+ {Ch,Rest};
+ Ch ->
+ {{error,{bad_character,Ch}},Rest}
+ end;
+utf8_2_ucs([A,B,C|Rest]) when A band 16#f0 =:= 16#e0,
+ B band 16#c0 =:= 16#80,
+ C band 16#c0 =:= 16#80 ->
+ %% 1110vvvv 10vvvvvv 10vvvvvv
+ case ((C band 16#3f) bor ((B band 16#3f) bsl 6) bor
+ ((A band 16#0f) bsl 12)) of
+ Ch when Ch >= 16#800 ->
+ {Ch,Rest};
+ Ch ->
+ {{error,{bad_character,Ch}},Rest}
+ end;
+utf8_2_ucs([A,B|Rest]) when A band 16#e0 =:= 16#c0,
+ B band 16#c0 =:= 16#80 ->
+ %% 110vvvvv 10vvvvvv
+ case ((B band 16#3f) bor ((A band 16#1f) bsl 6)) of
+ Ch when Ch >= 16#80 ->
+ {Ch,Rest};
+ Ch ->
+ {{error,{bad_character,Ch}},Rest}
+ end;
+utf8_2_ucs([A|Rest]) when A < 16#80 ->
+ {A,Rest};
+utf8_2_ucs([A|Rest]) ->
+ {{error,{bad_character,A}},Rest}.
+
+to_char_set("iso-10646-utf-1",Ch) ->
+ [Ch];
+to_char_set(UTF8,Ch) when UTF8 =:= "utf-8"; UTF8 =:= undefined ->
+ ucs_2_utf8(Ch);
+to_char_set(_,Ch) ->
+ [Ch].
+
+ucs_2_utf8(Ch) when Ch < 128 ->
+ %% 0vvvvvvv
+ [Ch];
+ucs_2_utf8(Ch) when Ch < 16#0800 ->
+ %% Ch: -----vvv vvvvvvvv
+ %% 110vvvvv 10vvvvvv
+ %% O1 = (Ch band 16#07c0) bsr 6,
+ %% O2 = (Ch band 16#003f),
+ [((Ch band 16#07c0) bsr 6) bor 16#c0,(Ch band 16#003f) bor 16#80];
+ucs_2_utf8(Ch) when Ch < 16#10000 ->
+ %% Ch: vvvvvvvv vvvvvvvv
+ %% 1110vvvv 10vvvvvv 10vvvvvv
+ %% O1 = (Ch band 16#f000) bsr 12
+ %% O2 = (Ch band 16#0fc0) bsr 6
+ %% O3 = (Ch band 16#003f)
+ [((Ch band 16#f000) bsr 12) bor 16#e0,
+ ((Ch band 16#0fc0) bsr 6) bor 16#80,
+ (Ch band 16#003f) bor 16#80];
+ucs_2_utf8(Ch) when Ch < 16#200000 ->
+ %% Ch: ---vvvvv vvvvvvvv vvvvvvvv
+ %% 11110vvv 10vvvvvv 10vvvvvv 10vvvvvv
+ %% O1 = (Ch band 16#1c0000) bsr 18
+ %% O2 = (Ch band 16#03f000) bsr 12
+ %% O3 = (Ch band 16#000fc0) bsr 6
+ %% O4 = (Ch band 16#00003f)
+ [((Ch band 16#1c0000) bsr 18) bor 16#f0,
+ ((Ch band 16#03f000) bsr 12) bor 16#80,
+ ((Ch band 16#000fc0) bsr 6) bor 16#80,
+ (Ch band 16#00003f) bor 16#80].
+
+
+string_to_char_set(Enc,Str) when Enc =:= "utf-8"; Enc =:= undefined ->
+ lists:flatten([ucs_2_utf8(X)||X <- Str]);
+string_to_char_set(_,Str) ->
+ Str.
+
+%% diagnose(Line) ->
+%% Mem=erlang:memory(),
+%% {OldTot,OldLine} = get_total(),
+%% NewTot =
+%% case {lists:keysearch(total,1,Mem),OldTot*1.1} of
+%% {{_,{_,Tot}},Tot110} when Tot > Tot110 ->
+%% io:format("From ~p to ~p, total memory: ~p (~p)~n",[OldLine,Line,Tot,OldTot]),
+%% Tot;
+%% {{_,{_,Tot}},_} ->
+%% Tot
+%% end,
+%% put_total({NewTot,Line}).
+
+%% get_total() ->
+%% case get(xmerl_mem) of
+%% undefined ->
+%% put(xmerl_mem,{0,0}),
+%% {0,0};
+%% M -> M
+%% end.
+
+%% put_total(M) ->
+%% put(xmerl_mem,M).