lytedev
/
lytlang
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity

WIP

This commit is contained in:
Daniel Flanagan 2019-06-16 00:55:27 -05:00
parent 4a0708ad07
commit 7d5d4f1080
6 changed files with 472 additions and 14 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

4
README.md
View File

@ -2,6 +2,9 @@
**TODO: Add description**
+ https://pl-rants.net/posts/leex-yecc-in-elixir/
+ https://notes.eellson.com/2017/01/22/html-parsing-in-elixir-with-leex-and-yecc/
## Installation
If [available in Hex](https://hex.pm/docs/publish), the package can be installed
@ -18,4 +21,3 @@ end
Documentation can be generated with [ExDoc](https://github.com/elixir-lang/ex_doc)
and published on [HexDocs](https://hexdocs.pm). Once published, the docs can
be found at [https://hexdocs.pm/lytlang](https://hexdocs.pm/lytlang).

12
lib/lytlang.xrl
View File

@ -1,12 +0,0 @@
%% number
[0-9]+ : {token,
{ number,
TokenLine,
list_to_integer(TokenChars)
}
}.
%% left paren
\( : {token, {'(', TokenLine}}.
%% ... other tokens
%% skip white spaces
[\s\n\r\t]+ : skip_token.

10
lib/parser.ex Normal file
View File

@ -0,0 +1,10 @@
defmodule Lytlang.Parser do
@doc """
Attempts to tokenize an input string to start_tag, end_tag, and char
"""
@spec parse(binary) :: list
def parse(input) do
{:ok, tokens, _} = input |> to_char_list |> :lytlang.string()
tokens
end
end

4
lib/transpiler.ex
View File

@ -69,10 +69,12 @@ defmodule Lytlang.Transpiler do
build_ast(rest, state)
end
def ast_to_elixir(s, state \\ %{elixir_code: []})
def ast_to_elixir([], state),
do: state.elixir_code |> Enum.filter(&(String.trim(&1) != "")) |> Enum.join("\n")
def ast_to_elixir([leaf | rest], state \\ %{elixir_code: []}) do
def ast_to_elixir([leaf | rest], state) do
child = fn {head, tail}, state -> [head | ast_to_elixir(rest, state)] ++ [tail] end
case leaf do

441
src/lytlang.erl Normal file
View File

@ -0,0 +1,441 @@
-file("/usr/lib/erlang/lib/parsetools-2.1.8/include/leexinc.hrl", 0).
%% The source of this file is part of leex distribution, as such it
%% has the same Copyright as the other files in the leex
%% distribution. The Copyright is defined in the accompanying file
%% COPYRIGHT. However, the resultant scanner generated by leex is the
%% property of the creator of the scanner and is not covered by that
%% Copyright.
-module(lytlang).
-export([string/1,string/2,token/2,token/3,tokens/2,tokens/3]).
-export([format_error/1]).
%% User code. This is placed here to allow extra attributes.
-file("src/lytlang.xrl", 15).
-file("/usr/lib/erlang/lib/parsetools-2.1.8/include/leexinc.hrl", 14).
format_error({illegal,S}) -> ["illegal characters ",io_lib:write_string(S)];
format_error({user,S}) -> S.
string(String) -> string(String, 1).
string(String, Line) -> string(String, Line, String, []).
%% string(InChars, Line, TokenChars, Tokens) ->
%% {ok,Tokens,Line} | {error,ErrorInfo,Line}.
%% Note the line number going into yystate, L0, is line of token
%% start while line number returned is line of token end. We want line
%% of token start.
string([], L, [], Ts) -> % No partial tokens!
{ok,yyrev(Ts),L};
string(Ics0, L0, Tcs, Ts) ->
case yystate(yystate(), Ics0, L0, 0, reject, 0) of
{A,Alen,Ics1,L1} -> % Accepting end state
string_cont(Ics1, L1, yyaction(A, Alen, Tcs, L0), Ts);
{A,Alen,Ics1,L1,_S1} -> % Accepting transistion state
string_cont(Ics1, L1, yyaction(A, Alen, Tcs, L0), Ts);
{reject,_Alen,Tlen,_Ics1,L1,_S1} -> % After a non-accepting state
{error,{L0,?MODULE,{illegal,yypre(Tcs, Tlen+1)}},L1};
{A,Alen,Tlen,_Ics1,L1,_S1} ->
Tcs1 = yysuf(Tcs, Alen),
L2 = adjust_line(Tlen, Alen, Tcs1, L1),
string_cont(Tcs1, L2, yyaction(A, Alen, Tcs, L0), Ts)
end.
%% string_cont(RestChars, Line, Token, Tokens)
%% Test for and remove the end token wrapper. Push back characters
%% are prepended to RestChars.
-dialyzer({nowarn_function, string_cont/4}).
string_cont(Rest, Line, {token,T}, Ts) ->
string(Rest, Line, Rest, [T|Ts]);
string_cont(Rest, Line, {token,T,Push}, Ts) ->
NewRest = Push ++ Rest,
string(NewRest, Line, NewRest, [T|Ts]);
string_cont(Rest, Line, {end_token,T}, Ts) ->
string(Rest, Line, Rest, [T|Ts]);
string_cont(Rest, Line, {end_token,T,Push}, Ts) ->
NewRest = Push ++ Rest,
string(NewRest, Line, NewRest, [T|Ts]);
string_cont(Rest, Line, skip_token, Ts) ->
string(Rest, Line, Rest, Ts);
string_cont(Rest, Line, {skip_token,Push}, Ts) ->
NewRest = Push ++ Rest,
string(NewRest, Line, NewRest, Ts);
string_cont(_Rest, Line, {error,S}, _Ts) ->
{error,{Line,?MODULE,{user,S}},Line}.
%% token(Continuation, Chars) ->
%% token(Continuation, Chars, Line) ->
%% {more,Continuation} | {done,ReturnVal,RestChars}.
%% Must be careful when re-entering to append the latest characters to the
%% after characters in an accept. The continuation is:
%% {token,State,CurrLine,TokenChars,TokenLen,TokenLine,AccAction,AccLen}
token(Cont, Chars) -> token(Cont, Chars, 1).
token([], Chars, Line) ->
token(yystate(), Chars, Line, Chars, 0, Line, reject, 0);
token({token,State,Line,Tcs,Tlen,Tline,Action,Alen}, Chars, _) ->
token(State, Chars, Line, Tcs ++ Chars, Tlen, Tline, Action, Alen).
%% token(State, InChars, Line, TokenChars, TokenLen, TokenLine,
%% AcceptAction, AcceptLen) ->
%% {more,Continuation} | {done,ReturnVal,RestChars}.
%% The argument order is chosen to be more efficient.
token(S0, Ics0, L0, Tcs, Tlen0, Tline, A0, Alen0) ->
case yystate(S0, Ics0, L0, Tlen0, A0, Alen0) of
%% Accepting end state, we have a token.
{A1,Alen1,Ics1,L1} ->
token_cont(Ics1, L1, yyaction(A1, Alen1, Tcs, Tline));
%% Accepting transition state, can take more chars.
{A1,Alen1,[],L1,S1} -> % Need more chars to check
{more,{token,S1,L1,Tcs,Alen1,Tline,A1,Alen1}};
{A1,Alen1,Ics1,L1,_S1} -> % Take what we got
token_cont(Ics1, L1, yyaction(A1, Alen1, Tcs, Tline));
%% After a non-accepting state, maybe reach accept state later.
{A1,Alen1,Tlen1,[],L1,S1} -> % Need more chars to check
{more,{token,S1,L1,Tcs,Tlen1,Tline,A1,Alen1}};
{reject,_Alen1,Tlen1,eof,L1,_S1} -> % No token match
%% Check for partial token which is error.
Ret = if Tlen1 > 0 -> {error,{Tline,?MODULE,
%% Skip eof tail in Tcs.
{illegal,yypre(Tcs, Tlen1)}},L1};
true -> {eof,L1}
end,
{done,Ret,eof};
{reject,_Alen1,Tlen1,Ics1,L1,_S1} -> % No token match
Error = {Tline,?MODULE,{illegal,yypre(Tcs, Tlen1+1)}},
{done,{error,Error,L1},Ics1};
{A1,Alen1,Tlen1,_Ics1,L1,_S1} -> % Use last accept match
Tcs1 = yysuf(Tcs, Alen1),
L2 = adjust_line(Tlen1, Alen1, Tcs1, L1),
token_cont(Tcs1, L2, yyaction(A1, Alen1, Tcs, Tline))
end.
%% token_cont(RestChars, Line, Token)
%% If we have a token or error then return done, else if we have a
%% skip_token then continue.
-dialyzer({nowarn_function, token_cont/3}).
token_cont(Rest, Line, {token,T}) ->
{done,{ok,T,Line},Rest};
token_cont(Rest, Line, {token,T,Push}) ->
NewRest = Push ++ Rest,
{done,{ok,T,Line},NewRest};
token_cont(Rest, Line, {end_token,T}) ->
{done,{ok,T,Line},Rest};
token_cont(Rest, Line, {end_token,T,Push}) ->
NewRest = Push ++ Rest,
{done,{ok,T,Line},NewRest};
token_cont(Rest, Line, skip_token) ->
token(yystate(), Rest, Line, Rest, 0, Line, reject, 0);
token_cont(Rest, Line, {skip_token,Push}) ->
NewRest = Push ++ Rest,
token(yystate(), NewRest, Line, NewRest, 0, Line, reject, 0);
token_cont(Rest, Line, {error,S}) ->
{done,{error,{Line,?MODULE,{user,S}},Line},Rest}.
%% tokens(Continuation, Chars, Line) ->
%% {more,Continuation} | {done,ReturnVal,RestChars}.
%% Must be careful when re-entering to append the latest characters to the
%% after characters in an accept. The continuation is:
%% {tokens,State,CurrLine,TokenChars,TokenLen,TokenLine,Tokens,AccAction,AccLen}
%% {skip_tokens,State,CurrLine,TokenChars,TokenLen,TokenLine,Error,AccAction,AccLen}
tokens(Cont, Chars) -> tokens(Cont, Chars, 1).
tokens([], Chars, Line) ->
tokens(yystate(), Chars, Line, Chars, 0, Line, [], reject, 0);
tokens({tokens,State,Line,Tcs,Tlen,Tline,Ts,Action,Alen}, Chars, _) ->
tokens(State, Chars, Line, Tcs ++ Chars, Tlen, Tline, Ts, Action, Alen);
tokens({skip_tokens,State,Line,Tcs,Tlen,Tline,Error,Action,Alen}, Chars, _) ->
skip_tokens(State, Chars, Line, Tcs ++ Chars, Tlen, Tline, Error, Action, Alen).
%% tokens(State, InChars, Line, TokenChars, TokenLen, TokenLine, Tokens,
%% AcceptAction, AcceptLen) ->
%% {more,Continuation} | {done,ReturnVal,RestChars}.
tokens(S0, Ics0, L0, Tcs, Tlen0, Tline, Ts, A0, Alen0) ->
case yystate(S0, Ics0, L0, Tlen0, A0, Alen0) of
%% Accepting end state, we have a token.
{A1,Alen1,Ics1,L1} ->
tokens_cont(Ics1, L1, yyaction(A1, Alen1, Tcs, Tline), Ts);
%% Accepting transition state, can take more chars.
{A1,Alen1,[],L1,S1} -> % Need more chars to check
{more,{tokens,S1,L1,Tcs,Alen1,Tline,Ts,A1,Alen1}};
{A1,Alen1,Ics1,L1,_S1} -> % Take what we got
tokens_cont(Ics1, L1, yyaction(A1, Alen1, Tcs, Tline), Ts);
%% After a non-accepting state, maybe reach accept state later.
{A1,Alen1,Tlen1,[],L1,S1} -> % Need more chars to check
{more,{tokens,S1,L1,Tcs,Tlen1,Tline,Ts,A1,Alen1}};
{reject,_Alen1,Tlen1,eof,L1,_S1} -> % No token match
%% Check for partial token which is error, no need to skip here.
Ret = if Tlen1 > 0 -> {error,{Tline,?MODULE,
%% Skip eof tail in Tcs.
{illegal,yypre(Tcs, Tlen1)}},L1};
Ts == [] -> {eof,L1};
true -> {ok,yyrev(Ts),L1}
end,
{done,Ret,eof};
{reject,_Alen1,Tlen1,_Ics1,L1,_S1} ->
%% Skip rest of tokens.
Error = {L1,?MODULE,{illegal,yypre(Tcs, Tlen1+1)}},
skip_tokens(yysuf(Tcs, Tlen1+1), L1, Error);
{A1,Alen1,Tlen1,_Ics1,L1,_S1} ->
Token = yyaction(A1, Alen1, Tcs, Tline),
Tcs1 = yysuf(Tcs, Alen1),
L2 = adjust_line(Tlen1, Alen1, Tcs1, L1),
tokens_cont(Tcs1, L2, Token, Ts)
end.
%% tokens_cont(RestChars, Line, Token, Tokens)
%% If we have an end_token or error then return done, else if we have
%% a token then save it and continue, else if we have a skip_token
%% just continue.
-dialyzer({nowarn_function, tokens_cont/4}).
tokens_cont(Rest, Line, {token,T}, Ts) ->
tokens(yystate(), Rest, Line, Rest, 0, Line, [T|Ts], reject, 0);
tokens_cont(Rest, Line, {token,T,Push}, Ts) ->
NewRest = Push ++ Rest,
tokens(yystate(), NewRest, Line, NewRest, 0, Line, [T|Ts], reject, 0);
tokens_cont(Rest, Line, {end_token,T}, Ts) ->
{done,{ok,yyrev(Ts, [T]),Line},Rest};
tokens_cont(Rest, Line, {end_token,T,Push}, Ts) ->
NewRest = Push ++ Rest,
{done,{ok,yyrev(Ts, [T]),Line},NewRest};
tokens_cont(Rest, Line, skip_token, Ts) ->
tokens(yystate(), Rest, Line, Rest, 0, Line, Ts, reject, 0);
tokens_cont(Rest, Line, {skip_token,Push}, Ts) ->
NewRest = Push ++ Rest,
tokens(yystate(), NewRest, Line, NewRest, 0, Line, Ts, reject, 0);
tokens_cont(Rest, Line, {error,S}, _Ts) ->
skip_tokens(Rest, Line, {Line,?MODULE,{user,S}}).
%%skip_tokens(InChars, Line, Error) -> {done,{error,Error,Line},Ics}.
%% Skip tokens until an end token, junk everything and return the error.
skip_tokens(Ics, Line, Error) ->
skip_tokens(yystate(), Ics, Line, Ics, 0, Line, Error, reject, 0).
%% skip_tokens(State, InChars, Line, TokenChars, TokenLen, TokenLine, Tokens,
%% AcceptAction, AcceptLen) ->
%% {more,Continuation} | {done,ReturnVal,RestChars}.
skip_tokens(S0, Ics0, L0, Tcs, Tlen0, Tline, Error, A0, Alen0) ->
case yystate(S0, Ics0, L0, Tlen0, A0, Alen0) of
{A1,Alen1,Ics1,L1} -> % Accepting end state
skip_cont(Ics1, L1, yyaction(A1, Alen1, Tcs, Tline), Error);
{A1,Alen1,[],L1,S1} -> % After an accepting state
{more,{skip_tokens,S1,L1,Tcs,Alen1,Tline,Error,A1,Alen1}};
{A1,Alen1,Ics1,L1,_S1} ->
skip_cont(Ics1, L1, yyaction(A1, Alen1, Tcs, Tline), Error);
{A1,Alen1,Tlen1,[],L1,S1} -> % After a non-accepting state
{more,{skip_tokens,S1,L1,Tcs,Tlen1,Tline,Error,A1,Alen1}};
{reject,_Alen1,_Tlen1,eof,L1,_S1} ->
{done,{error,Error,L1},eof};
{reject,_Alen1,Tlen1,_Ics1,L1,_S1} ->
skip_tokens(yysuf(Tcs, Tlen1+1), L1, Error);
{A1,Alen1,Tlen1,_Ics1,L1,_S1} ->
Token = yyaction(A1, Alen1, Tcs, Tline),
Tcs1 = yysuf(Tcs, Alen1),
L2 = adjust_line(Tlen1, Alen1, Tcs1, L1),
skip_cont(Tcs1, L2, Token, Error)
end.
%% skip_cont(RestChars, Line, Token, Error)
%% Skip tokens until we have an end_token or error then return done
%% with the original rror.
-dialyzer({nowarn_function, skip_cont/4}).
skip_cont(Rest, Line, {token,_T}, Error) ->
skip_tokens(yystate(), Rest, Line, Rest, 0, Line, Error, reject, 0);
skip_cont(Rest, Line, {token,_T,Push}, Error) ->
NewRest = Push ++ Rest,
skip_tokens(yystate(), NewRest, Line, NewRest, 0, Line, Error, reject, 0);
skip_cont(Rest, Line, {end_token,_T}, Error) ->
{done,{error,Error,Line},Rest};
skip_cont(Rest, Line, {end_token,_T,Push}, Error) ->
NewRest = Push ++ Rest,
{done,{error,Error,Line},NewRest};
skip_cont(Rest, Line, skip_token, Error) ->
skip_tokens(yystate(), Rest, Line, Rest, 0, Line, Error, reject, 0);
skip_cont(Rest, Line, {skip_token,Push}, Error) ->
NewRest = Push ++ Rest,
skip_tokens(yystate(), NewRest, Line, NewRest, 0, Line, Error, reject, 0);
skip_cont(Rest, Line, {error,_S}, Error) ->
skip_tokens(yystate(), Rest, Line, Rest, 0, Line, Error, reject, 0).
-compile({nowarn_unused_function, [yyrev/1, yyrev/2, yypre/2, yysuf/2]}).
yyrev(List) -> lists:reverse(List).
yyrev(List, Tail) -> lists:reverse(List, Tail).
yypre(List, N) -> lists:sublist(List, N).
yysuf(List, N) -> lists:nthtail(N, List).
%% adjust_line(TokenLength, AcceptLength, Chars, Line) -> NewLine
%% Make sure that newlines in Chars are not counted twice.
%% Line has been updated with respect to newlines in the prefix of
%% Chars consisting of (TokenLength - AcceptLength) characters.
-compile({nowarn_unused_function, adjust_line/4}).
adjust_line(N, N, _Cs, L) -> L;
adjust_line(T, A, [$\n|Cs], L) ->
adjust_line(T-1, A, Cs, L-1);
adjust_line(T, A, [_|Cs], L) ->
adjust_line(T-1, A, Cs, L).
%% yystate() -> InitialState.
%% yystate(State, InChars, Line, CurrTokLen, AcceptAction, AcceptLen) ->
%% {Action, AcceptLen, RestChars, Line} |
%% {Action, AcceptLen, RestChars, Line, State} |
%% {reject, AcceptLen, CurrTokLen, RestChars, Line, State} |
%% {Action, AcceptLen, CurrTokLen, RestChars, Line, State}.
%% Generated state transition functions. The non-accepting end state
%% return signal either an unrecognised character or end of current
%% input.
-file("src/lytlang.erl", 307).
yystate() -> 10.
yystate(13, [C|Ics], Line, Tlen, _, _) when C >= 48, C =< 57 ->
yystate(13, Ics, Line, Tlen+1, 0, Tlen);
yystate(13, Ics, Line, Tlen, _, _) ->
{0,Tlen,Ics,Line,13};
yystate(12, [32|Ics], Line, Tlen, _, _) ->
yystate(12, Ics, Line, Tlen+1, 3, Tlen);
yystate(12, [13|Ics], Line, Tlen, _, _) ->
yystate(12, Ics, Line, Tlen+1, 3, Tlen);
yystate(12, [9|Ics], Line, Tlen, _, _) ->
yystate(12, Ics, Line, Tlen+1, 3, Tlen);
yystate(12, [10|Ics], Line, Tlen, _, _) ->
yystate(12, Ics, Line+1, Tlen+1, 3, Tlen);
yystate(12, Ics, Line, Tlen, _, _) ->
{3,Tlen,Ics,Line,12};
yystate(11, [109|Ics], Line, Tlen, Action, Alen) ->
yystate(7, Ics, Line, Tlen+1, Action, Alen);
yystate(11, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,11};
yystate(10, [109|Ics], Line, Tlen, Action, Alen) ->
yystate(6, Ics, Line, Tlen+1, Action, Alen);
yystate(10, [33|Ics], Line, Tlen, Action, Alen) ->
yystate(11, Ics, Line, Tlen+1, Action, Alen);
yystate(10, [32|Ics], Line, Tlen, Action, Alen) ->
yystate(12, Ics, Line, Tlen+1, Action, Alen);
yystate(10, [13|Ics], Line, Tlen, Action, Alen) ->
yystate(12, Ics, Line, Tlen+1, Action, Alen);
yystate(10, [9|Ics], Line, Tlen, Action, Alen) ->
yystate(12, Ics, Line, Tlen+1, Action, Alen);
yystate(10, [10|Ics], Line, Tlen, Action, Alen) ->
yystate(12, Ics, Line+1, Tlen+1, Action, Alen);
yystate(10, [C|Ics], Line, Tlen, Action, Alen) when C >= 48, C =< 57 ->
yystate(13, Ics, Line, Tlen+1, Action, Alen);
yystate(10, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,10};
yystate(9, [95|Ics], Line, Tlen, _, _) ->
yystate(9, Ics, Line, Tlen+1, 1, Tlen);
yystate(9, [C|Ics], Line, Tlen, _, _) when C >= 48, C =< 57 ->
yystate(9, Ics, Line, Tlen+1, 1, Tlen);
yystate(9, [C|Ics], Line, Tlen, _, _) when C >= 65, C =< 90 ->
yystate(9, Ics, Line, Tlen+1, 1, Tlen);
yystate(9, [C|Ics], Line, Tlen, _, _) when C >= 97, C =< 122 ->
yystate(9, Ics, Line, Tlen+1, 1, Tlen);
yystate(9, Ics, Line, Tlen, _, _) ->
{1,Tlen,Ics,Line,9};
yystate(8, [95|Ics], Line, Tlen, _, _) ->
yystate(8, Ics, Line, Tlen+1, 2, Tlen);
yystate(8, [C|Ics], Line, Tlen, _, _) when C >= 48, C =< 57 ->
yystate(8, Ics, Line, Tlen+1, 2, Tlen);
yystate(8, [C|Ics], Line, Tlen, _, _) when C >= 65, C =< 90 ->
yystate(8, Ics, Line, Tlen+1, 2, Tlen);
yystate(8, [C|Ics], Line, Tlen, _, _) when C >= 97, C =< 122 ->
yystate(8, Ics, Line, Tlen+1, 2, Tlen);
yystate(8, Ics, Line, Tlen, _, _) ->
{2,Tlen,Ics,Line,8};
yystate(7, [111|Ics], Line, Tlen, Action, Alen) ->
yystate(3, Ics, Line, Tlen+1, Action, Alen);
yystate(7, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,7};
yystate(6, [111|Ics], Line, Tlen, Action, Alen) ->
yystate(2, Ics, Line, Tlen+1, Action, Alen);
yystate(6, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,6};
yystate(5, [C|Ics], Line, Tlen, Action, Alen) when C >= 65, C =< 90 ->
yystate(9, Ics, Line, Tlen+1, Action, Alen);
yystate(5, [C|Ics], Line, Tlen, Action, Alen) when C >= 97, C =< 122 ->
yystate(9, Ics, Line, Tlen+1, Action, Alen);
yystate(5, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,5};
yystate(4, [C|Ics], Line, Tlen, Action, Alen) when C >= 65, C =< 90 ->
yystate(8, Ics, Line, Tlen+1, Action, Alen);
yystate(4, [C|Ics], Line, Tlen, Action, Alen) when C >= 97, C =< 122 ->
yystate(8, Ics, Line, Tlen+1, Action, Alen);
yystate(4, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,4};
yystate(3, [100|Ics], Line, Tlen, Action, Alen) ->
yystate(0, Ics, Line, Tlen+1, Action, Alen);
yystate(3, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,3};
yystate(2, [100|Ics], Line, Tlen, Action, Alen) ->
yystate(1, Ics, Line, Tlen+1, Action, Alen);
yystate(2, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,2};
yystate(1, [32|Ics], Line, Tlen, Action, Alen) ->
yystate(5, Ics, Line, Tlen+1, Action, Alen);
yystate(1, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,1};
yystate(0, [32|Ics], Line, Tlen, Action, Alen) ->
yystate(4, Ics, Line, Tlen+1, Action, Alen);
yystate(0, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,0};
yystate(S, Ics, Line, Tlen, Action, Alen) ->
{Action,Alen,Tlen,Ics,Line,S}.
%% yyaction(Action, TokenLength, TokenChars, TokenLine) ->
%% {token,Token} | {end_token, Token} | skip_token | {error,String}.
%% Generated action function.
yyaction(0, TokenLen, YYtcs, TokenLine) ->
TokenChars = yypre(YYtcs, TokenLen),
yyaction_0(TokenChars, TokenLine);
yyaction(1, TokenLen, YYtcs, TokenLine) ->
TokenChars = yypre(YYtcs, TokenLen),
yyaction_1(TokenChars, TokenLine);
yyaction(2, TokenLen, YYtcs, TokenLine) ->
TokenChars = yypre(YYtcs, TokenLen),
yyaction_2(TokenChars, TokenLine);
yyaction(3, _, _, _) ->
yyaction_3();
yyaction(_, _, _, _) -> error.
-compile({inline,yyaction_0/2}).
-file("src/lytlang.xrl", 8).
yyaction_0(TokenChars, TokenLine) ->
{ token, { number, TokenLine, list_to_integer (TokenChars) } } .
-compile({inline,yyaction_1/2}).
-file("src/lytlang.xrl", 9).
yyaction_1(TokenChars, TokenLine) ->
{ token, { module_decl, TokenLine, TokenChars } } .
-compile({inline,yyaction_2/2}).
-file("src/lytlang.xrl", 10).
yyaction_2(TokenChars, TokenLine) ->
{ token, { file_level_module_decl, TokenLine, TokenChars } } .
-compile({inline,yyaction_3/0}).
-file("src/lytlang.xrl", 11).
yyaction_3() ->
skip_token .
-file("/usr/lib/erlang/lib/parsetools-2.1.8/include/leexinc.hrl", 313).

15
src/lytlang.xrl Normal file
View File

@ -0,0 +1,15 @@
Definitions.
MODULE_DECL = mod\s[a-zA-Z][a-zA-Z0-9_]*
FILE_LEVEL_MODULE_DECL = !mod\s([a-zA-Z][a-zA-Z0-9_]*)
NUMBER = [0-9]+
Rules.
%% number
{NUMBER} : {token, { number, TokenLine, list_to_integer(TokenChars) } }.
{MODULE_DECL} : {token, { module_decl, TokenLine, TokenChars } }.
{FILE_LEVEL_MODULE_DECL} : {token, { file_level_module_decl, TokenLine, TokenChars } }.
[\s\n\r\t]+ : skip_token.
Erlang code.