Module
leex
Module Summary
Lexical analyzer generator for Erlang
Description
A regular expression based lexical analyzer generator for Erlang, similar to lex or flex.
The Leex module should be considered experimental as it will be subject to changes in future releases.
Data Types
error_info() =
{erl_anno:line() | none, module(), ErrorDescriptor :: term()}
The standard error_info()
structure that is returned from all I/O modules. ErrorDescriptor
is formattable by format_error/1
.
Exports
file(FileName) -> leex_ret() |
file(FileName, Options) -> leex_ret() | OTP R16B02 |
Types
Generates a lexical analyzer from the definition in the input file. The input file has the extension .xrl
. This is added to the filename if it is not given. The resulting module is the Xrl filename without the .xrl
extension.
The current options are:
dfa_graph
-
Generates a
.dot
file which contains a description of the DFA in a format which can be viewed with Graphviz,www.graphviz.com
. {includefile,Includefile}
-
Uses a specific or customised prologue file instead of default
lib/parsetools/include/leexinc.hrl
which is otherwise included. {report_errors, boolean()}
-
Causes errors to be printed as they occur. Default is
true
. {report_warnings, boolean()}
-
Causes warnings to be printed as they occur. Default is
true
. {report, boolean()}
-
This is a short form for both
report_errors
andreport_warnings
. {return_errors, boolean()}
-
If this flag is set,
{error, Errors, Warnings}
is returned when there are errors. Default isfalse
. {return_warnings, boolean()}
-
If this flag is set, an extra field containing
Warnings
is added to the tuple returned upon success. Default isfalse
. {return, boolean()}
-
This is a short form for both
return_errors
andreturn_warnings
. {scannerfile, Scannerfile}
-
Scannerfile
is the name of the file that will contain the Erlang scanner code that is generated. The default (""
) is to add the extension.erl
toFileName
stripped of the.xrl
extension. {verbose, boolean()}
-
Outputs information from parsing the input file and generating the internal tables.
{warnings_as_errors, boolean()}
-
Causes warnings to be treated as errors.
Any of the Boolean options can be set to true
by stating the name of the option. For example, verbose
is equivalent to {verbose, true}
.
Leex will add the extension .hrl
to the Includefile
name and the extension .erl
to the Scannerfile
name, unless the extension is already there.
format_error(ErrorDescriptor) -> io_lib:chars() |
Types
Returns a descriptive string in English of an error reason ErrorDescriptor
returned by leex:file/1,2
when there is an error in a regular expression.
Generated scanner exports
The following functions are exported by the generated scanner.
Exports
Module:string(String) -> StringRet |
Module:string(String, StartLine) -> StringRet |
Types
Scans String
and returns all the tokens in it, or an error.
It is an error if not all of the characters in String
are consumed.
Module:token(Cont, Chars) -> {more,Cont1} | {done,TokenRet,RestChars} |
Module:token(Cont, Chars, StartLine) -> {more,Cont1} | {done,TokenRet,RestChars} |
Types
This is a re-entrant call to try and scan one token from Chars
. If there are enough characters in Chars
to either scan a token or detect an error then this will be returned with {done,...}
. Otherwise {cont,Cont}
will be returned where Cont
is used in the next call to token()
with more characters to try an scan the token. This is continued until a token has been scanned. Cont
is initially []
.
It is not designed to be called directly by an application but used through the i/o system where it can typically be called in an application by:
io:request(InFile, {get_until,unicode,Prompt,Module,token,[Line]}) -> TokenRet
Module:tokens(Cont, Chars) -> {more,Cont1} | {done,TokensRet,RestChars} |
Module:tokens(Cont, Chars, StartLine) -> {more,Cont1} | {done,TokensRet,RestChars} |
Types
This is a re-entrant call to try and scan tokens from Chars
. If there are enough characters in Chars
to either scan tokens or detect an error then this will be returned with {done,...}
. Otherwise {cont,Cont}
will be returned where Cont
is used in the next call to tokens()
with more characters to try an scan the tokens. This is continued until all tokens have been scanned. Cont
is initially []
.
This functions differs from token
in that it will continue to scan tokens upto and including an {end_token,Token}
has been scanned (see next section). It will then return all the tokens. This is typically used for scanning grammars like Erlang where there is an explicit end token, '.'
. If no end token is found then the whole file will be scanned and returned. If an error occurs then all tokens upto and including the next end token will be skipped.
It is not designed to be called directly by an application but used through the i/o system where it can typically be called in an application by:
io:request(InFile, {get_until,unicode,Prompt,Module,tokens,[Line]}) -> TokensRet
Default Leex Options
The (host operating system) environment variable ERL_COMPILER_OPTIONS
can be used to give default Leex options. Its value must be a valid Erlang term. If the value is a list, it is used as is. If it is not a list, it is put into a list.
The list is appended to any options given to file/2
.
The list can be retrieved with compile:env_compiler_options/0
.
Input File Format
Erlang style comments starting with a %
are allowed in scanner files. A definition file has the following format:
<Header> Definitions. <Macro Definitions> Rules. <Token Rules> Erlang code. <Erlang code>
The "Definitions.", "Rules." and "Erlang code." headings are mandatory and must occur at the beginning of a source line. The <Header>, <Macro Definitions> and <Erlang code> sections may be empty but there must be at least one rule.
Macro definitions have the following format:
NAME = VALUE
and there must be spaces around =
. Macros can be used in the regular expressions of rules by writing {NAME}
.
When macros are expanded in expressions the macro calls are replaced by the macro value without any form of quoting or enclosing in parentheses.
Rules have the following format:
<Regexp> : <Erlang code>.
The <Regexp> must occur at the start of a line and not include any blanks; use \t
and \s
to include TAB and SPACE characters in the regular expression. If <Regexp> matches then the corresponding <Erlang code> is evaluated to generate a token. With the Erlang code the following predefined variables are available:
TokenChars
-
A list of the characters in the matched token.
TokenLen
-
The number of characters in the matched token.
TokenLine
-
The line number where the token occurred.
The code must return:
{token,Token}
-
Return
Token
to the caller. {end_token,Token}
-
Return
Token
and is last token in a tokens call. skip_token
-
Skip this token completely.
{error,ErrString}
-
An error in the token,
ErrString
is a string describing the error.
It is also possible to push back characters into the input characters with the following returns:
{token,Token,PushBackList}
{end_token,Token,PushBackList}
{skip_token,PushBackList}
These have the same meanings as the normal returns but the characters in PushBackList
will be prepended to the input characters and scanned for the next token. Note that pushing back a newline will mean the line numbering will no longer be correct.
Pushing back characters gives you unexpected possibilities to cause the scanner to loop!
The following example would match a simple Erlang integer or float and return a token which could be sent to the Erlang parser:
D = [0-9] {D}+ : {token,{integer,TokenLine,list_to_integer(TokenChars)}}. {D}+\.{D}+((E|e)(\+|\-)?{D}+)? : {token,{float,TokenLine,list_to_float(TokenChars)}}.
The Erlang code in the "Erlang code." section is written into the output file directly after the module declaration and predefined exports declaration so it is possible to add extra exports, define imports and other attributes which are then visible in the whole file.
Regular Expressions
The regular expressions allowed here is a subset of the set found in egrep
and in the AWK programming language, as defined in the book, The AWK Programming Language, by A. V. Aho, B. W. Kernighan, P. J. Weinberger. They are composed of the following characters:
c
-
Matches the non-metacharacter c.
\c
-
Matches the escape sequence or literal character c.
.
-
Matches any character.
^
-
Matches the beginning of a string.
$
Matches the end of a string.
[abc...]
-
Character class, which matches any of the characters
abc...
. Character ranges are specified by a pair of characters separated by a-
. [^abc...]
-
Negated character class, which matches any character except
abc...
. r1 | r2
-
Alternation. It matches either
r1
orr2
. r1r2
-
Concatenation. It matches
r1
and thenr2
. r+
-
Matches one or more
rs
. r*
-
Matches zero or more
rs
. r?
-
Matches zero or one
rs
. (r)
-
Grouping. It matches
r
.
The escape sequences allowed are the same as for Erlang strings:
\b
Backspace.
\f
Form feed.
\n
Newline (line feed).
\r
Carriage return.
\t
Tab.
\e
Escape.
\v
Vertical tab.
\s
Space.
\d
Delete.
\ddd
The octal value
ddd
.\xhh
The hexadecimal value
hh
.\x{h...}
The hexadecimal value
h...
.\c
-
Any other character literally, for example
\\
for backslash,\"
for"
.
The following examples define simplified versions of a few Erlang data types:
Atoms [a-z][0-9a-zA-Z_]* Variables [A-Z_][0-9a-zA-Z_]* Floats (\+|-)?[0-9]+\.[0-9]+((E|e)(\+|-)?[0-9]+)?
Anchoring a regular expression with ^
and $
is not implemented in the current version of Leex and just generates a parse error.
© 2010–2021 Ericsson AB
Licensed under the Apache License, Version 2.0.