erl_scan
The Erlang Token Scanner
This module contains functions for tokenizing characters into Erlang tokens.
Types
attribute_info() =
{column, column()} |
{length, integer() >= 1} |
{line, info_line()} |
{location, info_location()} |
{text, string()}
attributes() = line() | attributes_data()
attributes_data() =
[{column, column()} | {line, info_line()} | {text, string()}] |
{line(), column()}
category() = atom()
column() = integer() >= 1
error_description() = term()
error_info() = {location(), module(), error_description()}
info_line() = integer() | term()
info_location() = location() | term()
line() = integer()
option() =
return |
return_white_spaces |
return_comments |
text |
{reserved_word_fun, resword_fun()}
symbol() = atom() | float() | integer() | string()
resword_fun() = fun((atom()) -> boolean())
token() =
{category(), attributes(), symbol()} |
{category(), attributes()}
token_info() =
{category, category()} | {symbol, symbol()} | attribute_info()
tokens() = [token()]
tokens_result() =
{ok, Tokens :: tokens(), EndLocation :: location()} |
{eof, EndLocation :: location()} |
{error, ErrorInfo :: error_info(), EndLocation :: location()}
Functions
string(String) -> Return
String = string()
Return =
{ok, Tokens :: tokens(), EndLocation} |
{error, ErrorInfo :: error_info(), ErrorLocation}EndLocation = ErrorLocation = location()
string(String, StartLocation) -> Return
String = string()
Return =
{ok, Tokens :: tokens(), EndLocation} |
{error, ErrorInfo :: error_info(), ErrorLocation}StartLocation = EndLocation = ErrorLocation = location()
string(String, StartLocation, Options) -> Return
String = string()
Options = options()
Return =
{ok, Tokens :: tokens(), EndLocation} |
{error, ErrorInfo :: error_info(), ErrorLocation}StartLocation = EndLocation = ErrorLocation = location()
Takes the list of characters
and tries to
scan (tokenize) them. Returns {ok,
,
where
are the Erlang tokens from
.
is the first location after the last token.
{error,
is returned if an error occurs.
is the first location after
the erroneous token.
string(
is equivalent to
string(
, and
string(
is equivalent to
string(
.
indicates the initial location
when scanning starts. If
is a line,
attributes()
as well as
and
will be lines. If
is a pair of a line and a column
attributes()
takes the form of an opaque compound
data type, and
and
will be pairs of a line and a column. The token
attributes contain information about the column and the
line where the token begins, as well as the text of the
token (if the text
option is given), all of which can
be accessed by calling token_info/1,2, attributes_info/1,2,
column/1,
line/1,
location/1, and
text/1.
A token is a tuple containing information about
syntactic category, the token attributes, and the actual
terminal symbol. For punctuation characters (e.g. ;
,
|
) and reserved words, the category and the symbol
coincide, and the token is represented by a two-tuple.
Three-tuples have one of the following forms: {atom,
Info, atom()}
,
{char, Info, integer()}
, {comment, Info,
string()}
, {float, Info, float()}
, {integer,
Info, integer()}
, {var, Info, atom()}
,
and {white_space, Info, string()}
.
The valid options are:
{reserved_word_fun, reserved_word_fun()}
A callback function that is called when the scanner
has found an unquoted atom. If the function returns
true
, the unquoted atom itself will be the category
of the token; if the function returns false
,
atom
will be the category of the unquoted atom.
return_comments
Return comment tokens.
return_white_spaces
Return white space tokens. By convention, if there is a newline character, it is always the first character of the text (there cannot be more than one newline in a white space token).
return
Short for [return_comments, return_white_spaces]
.
text
Include the token's text in the token attributes. The text is the part of the input corresponding to the token.
tokens(Continuation, CharSpec, StartLocation) -> Return
Continuation = return_cont() | []
CharSpec = char_spec()
StartLocation = location()
Return =
{done,
Result :: tokens_result(),
LeftOverChars :: char_spec()} |
{more, Continuation1 :: return_cont()}
tokens(Continuation, CharSpec, StartLocation, Options) -> Return
Continuation = return_cont() | []
CharSpec = char_spec()
StartLocation = location()
Options = options()
Return =
{done,
Result :: tokens_result(),
LeftOverChars :: char_spec()} |
{more, Continuation1 :: return_cont()}
char_spec() = string() | eof
return_cont()
This is the re-entrant scanner which scans characters until
a dot ('.' followed by a white space) or
eof
has been reached. It returns:
{done, Result , LeftOverChars }
This return indicates that there is sufficient input
data to get a result.
is:
{ok, Tokens, EndLocation}
The scanning was successful. Tokens
is the list of tokens including dot.
{eof, EndLocation}
End of file was encountered before any more tokens.
{error, ErrorInfo, EndLocation}
An error occurred.
is the remaining characters of the input data,
starting from EndLocation
.
{more, Continuation1 }
More data is required for building a term.
must be passed in a new call to
tokens/3,4
when more data is available.
The eof
signals end of file.
will then take the value eof
as well.
tokens(
is equivalent to
tokens(
.
See string/3 for a description of the various options.
reserved_word(Atom :: atom()) -> boolean()
Returns true
if
is an Erlang
reserved word, otherwise false
.
column(Token) -> erl_anno:column() | undefined
Token = token()
Returns the column of
's
collection of annotations.
end_location(Token) -> erl_anno:location() | undefined
Token = token()
Returns the end location of the text of
's collection of annotations. If
there is no text,
undefined
is returned.
line(Token) -> erl_anno:line()
Token = token()
Returns the line of
's collection
of annotations.
location(Token) -> erl_anno:location()
Token = token()
Returns the location of
's
collection of annotations.
text(Token) -> erl_anno:text() | undefined
Token = token()
Returns the text of
's collection
of annotations. If there is no text, undefined
is
returned.
token_info(Token) -> TokenInfo
Token = token()
TokenInfo = [TokenInfoTuple :: token_info()]
Returns a list containing information about the token
. The order of the
s is not
defined. See token_info/2 for
information about specific
s.
Note that if token_info(Token, TokenItem)
returns
undefined
for some TokenItem
, the
item is not included in
.
token_info(Token, TokenItem) -> TokenInfoTuple | undefined
token_info(Token, TokenItems) -> TokenInfo
Token = token()
TokenItem = token_item()
TokenInfoTuple = token_info()
TokenItems = [TokenItem :: token_item()]
TokenInfo = [TokenInfoTuple :: token_info()]
token_item() = category | symbol | attribute_item()
attribute_item() = column | length | line | location | text
Returns a list containing information about the token
. If one single
is given the returned value is
the corresponding
TokenInfoTuple
, or undefined
if the
TokenItem
has no value. If a list of
s is given the result is a list of
. The
s will
appear with the corresponding
s in
the same order as the
s
appear in the list of TokenItem
s.
s with no value are not included
in the list of
.
The following
s with corresponding
s are valid:
{category,
category()}
The category of the token.
{column,
column()}
The column where the token begins.
{length, integer() > 0}
The length of the token's text.
{line,
line()}
The line where the token begins.
{location,
location()}
The line and column where the token begins, or just the line if the column unknown.
{symbol,
symbol()}
The token's symbol.
{text, string()}
The token's text.
attributes_info(Attributes) -> AttributesInfo
Attributes = attributes()
AttributesInfo = [AttributeInfoTuple :: attribute_info()]
Returns a list containing information about the token
attributes
. The order of the
s is not defined.
See attributes_info/2 for
information about specific
s.
Note that if attributes_info(Token, AttributeItem)
returns undefined
for some AttributeItem
in
the list above, the item is not included in
.
attributes_info(Attributes, AttributeItem) ->
AttributeInfoTuple | undefined
attributes_info(Attributes, AttributeItems) -> AttributeInfo
Attributes = attributes()
AttributeItem = attribute_item()
AttributeInfoTuple = attribute_info()
AttributeItems = [AttributeItem :: attribute_item()]
AttributeInfo = [AttributeInfoTuple :: attribute_info()]
attribute_item() = column | length | line | location | text
Returns a list containing information about the token
attributes
. If one single
is given the returned value is the
corresponding
,
or undefined
if the
has no value. If a list of
is given the result is a list of
.
The
s
will appear with the corresponding
s
in the same order as the
s
appear in the list of
s.
s with no
value are not included in the list of
.
The following
s with
corresponding
s are valid:
{column,
column()}
The column where the token begins.
{length, integer() > 0}
The length of the token's text.
{line,
line()}
The line where the token begins.
{location,
location()}
The line and column where the token begins, or just the line if the column unknown.
{text, string()}
The token's text.
set_attribute(AttributeItem, Attributes, SetAttributeFun) ->
Attributes
AttributeItem = line
Attributes = attributes()
SetAttributeFun = fun((info_line()) -> info_line())
Sets the value of the line
attribute of the token
attributes
.
The
is called with the value of
the line
attribute, and is to return the new value of
the line
attribute.
format_error(ErrorDescriptor) -> string()
ErrorDescriptor = error_description()
Takes an
and returns
a string which
describes the error or warning. This function is usually
called implicitly when processing an ErrorInfo
structure (see below).
Error Information
The ErrorInfo
mentioned above is the standard
ErrorInfo
structure which is returned from all IO
modules. It has the following format:
{ErrorLocation, Module, ErrorDescriptor}
A string which describes the error is obtained with the following call:
Module:format_error(ErrorDescriptor)
Notes
The continuation of the first call to the re-entrant input
functions must be []
. Refer to Armstrong, Virding and
Williams, 'Concurrent Programming in Erlang', Chapter 13, for a
complete description of how the re-entrant input scheme works.