(bison.info)Error Recovery


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Error Recovery
**************

   It is not usually acceptable to have a program terminate on a parse
error.  For example, a compiler should recover sufficiently to parse the
rest of the input file and check it for errors; a calculator should
accept another expression.

   In a simple interactive command parser where each input is one line,
it may be sufficient to allow `yyparse' to return 1 on error and have
the caller ignore the rest of the input line when that happens (and
then call `yyparse' again).  But this is inadequate for a compiler,
because it forgets all the syntactic context leading up to the error.
A syntax error deep within a function in the compiler input should not
cause the compiler to treat the following line like the beginning of a
source file.

   You can define how to recover from a syntax error by writing rules to
recognize the special token `error'.  This is a terminal symbol that is
always defined (you need not declare it) and reserved for error
handling.  The Bison parser generates an `error' token whenever a
syntax error happens; if you have provided a rule to recognize this
token in the current context, the parse can continue.

   For example:

     stmnts:  /* empty string */
             | stmnts '\n'
             | stmnts exp '\n'
             | stmnts error '\n'

   The fourth rule in this example says that an error followed by a
newline makes a valid addition to any `stmnts'.

   What happens if a syntax error occurs in the middle of an `exp'?  The
error recovery rule, interpreted strictly, applies to the precise
sequence of a `stmnts', an `error' and a newline.  If an error occurs in
the middle of an `exp', there will probably be some additional tokens
and subexpressions on the stack after the last `stmnts', and there will
be tokens to read before the next newline.  So the rule is not
applicable in the ordinary way.

   But Bison can force the situation to fit the rule, by discarding
part of the semantic context and part of the input.  First it discards
states and objects from the stack until it gets back to a state in
which the `error' token is acceptable.  (This means that the
subexpressions already parsed are discarded, back to the last complete
`stmnts'.)  At this point the `error' token can be shifted.  Then, if
the old look-ahead token is not acceptable to be shifted next, the
parser reads tokens and discards them until it finds a token which is
acceptable.  In this example, Bison reads and discards input until the
next newline so that the fourth rule can apply.

   The choice of error rules in the grammar is a choice of strategies
for error recovery.  A simple and useful strategy is simply to skip the
rest of the current input line or current statement if an error is
detected:

     stmnt: error ';'  /* on error, skip until ';' is read */

   It is also useful to recover to the matching close-delimiter of an
opening-delimiter that has already been parsed.  Otherwise the
close-delimiter will probably appear to be unmatched, and generate
another, spurious error message:

     primary:  '(' expr ')'
             | '(' error ')'
             ...
             ;

   Error recovery strategies are necessarily guesses.  When they guess
wrong, one syntax error often leads to another.  In the above example,
the error recovery rule guesses that an error is due to bad input
within one `stmnt'.  Suppose that instead a spurious semicolon is
inserted in the middle of a valid `stmnt'.  After the error recovery
rule recovers from the first error, another syntax error will be found
straightaway, since the text following the spurious semicolon is also
an invalid `stmnt'.

   To prevent an outpouring of error messages, the parser will output
no error message for another syntax error that happens shortly after
the first; only after three consecutive input tokens have been
successfully shifted will error messages resume.

   Note that rules which accept the `error' token may have actions, just
as any other rules can.

   You can make error messages resume immediately by using the macro
`yyerrok' in an action.  If you do this in the error rule's action, no
error messages will be suppressed.  This macro requires no arguments;
`yyerrok;' is a valid C statement.

   The previous look-ahead token is reanalyzed immediately after an
error.  If this is unacceptable, then the macro `yyclearin' may be used
to clear this token.  Write the statement `yyclearin;' in the error
rule's action.

   For example, suppose that on a parse error, an error handling
routine is called that advances the input stream to some point where
parsing should once again commence.  The next symbol returned by the
lexical scanner is probably correct.  The previous look-ahead token
ought to be discarded with `yyclearin;'.

   The macro `YYRECOVERING' stands for an expression that has the value
1 when the parser is recovering from a syntax error, and 0 the rest of
the time.  A value of 1 indicates that error messages are currently
suppressed for new syntax errors.


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Dirfile and infopages generated Sat Dec 3 02:07:54 2005