Fixed all line endings of the repository

[simantics/platform.git] / bundles / org.simantics.databoard / cpp / DataBoardTest / libantlr3c-3.2 / include / antlr3debugeventlistener.h

/**
 * \file
 * The definition of all debugging events that a recognizer can trigger.
 *
 * \remark
 *  From the java implementation by Terence Parr...
 *  I did not create a separate AST debugging interface as it would create
 *  lots of extra classes and DebugParser has a dbg var defined, which makes
 *  it hard to change to ASTDebugEventListener.  I looked hard at this issue
 *  and it is easier to understand as one monolithic event interface for all
 *  possible events.  Hopefully, adding ST debugging stuff won't be bad.  Leave
 *  for future. 4/26/2006.
 */

#ifndef ANTLR3_DEBUG_EVENT_LISTENER_H
#define ANTLR3_DEBUG_EVENT_LISTENER_H

// [The "BSD licence"]
// Copyright (c) 2005-2009 Jim Idle, Temporal Wave LLC
// http://www.temporal-wave.com
// http://www.linkedin.com/in/jimidle
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// 1. Redistributions of source code must retain the above copyright
//    notice, this list of conditions and the following disclaimer.
// 2. Redistributions in binary form must reproduce the above copyright
//    notice, this list of conditions and the following disclaimer in the
//    documentation and/or other materials provided with the distribution.
// 3. The name of the author may not be used to endorse or promote products
//    derived from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
// IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
// OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
// IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
// NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
// THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

#include    <antlr3defs.h>
#include    <antlr3basetree.h>
#include    <antlr3commontoken.h>


/// Default debugging port
///
#define DEFAULT_DEBUGGER_PORT           0xBFCC;

#ifdef __cplusplus
extern "C" {
#endif

/** The ANTLR3 debugging interface for communicating with ANLTR Works. Function comments
 *  mostly taken from the Java version.
 */
typedef struct ANTLR3_DEBUG_EVENT_LISTENER_struct
{
        /// The port number which the debug listener should listen on for a connection
        ///
        ANTLR3_UINT32           port;

        /// The socket structure we receive after a successful accept on the serverSocket
        ///
        SOCKET                          socket;

        /** The version of the debugging protocol supported by the providing
         *  instance of the debug event listener.
         */
        int                                     PROTOCOL_VERSION;

        /// The name of the grammar file that we are debugging
        ///
        pANTLR3_STRING          grammarFileName;

        /// Indicates whether we have already connected or not
        ///
        ANTLR3_BOOLEAN          initialized;

        /// Used to serialize the values of any particular token we need to
        /// send back to the debugger.
        ///
        pANTLR3_STRING          tokenString;


        /// Allows the debug event system to access the adapter in use
        /// by the recognizer, if this is a tree parser of some sort.
        ///
        pANTLR3_BASE_TREE_ADAPTOR       adaptor;

        /// Wait for a connection from the debugger and initiate the
        /// debugging session.
        ///
        ANTLR3_BOOLEAN  (*handshake)            (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        /** The parser has just entered a rule.  No decision has been made about
         *  which alt is predicted.  This is fired AFTER init actions have been
         *  executed.  Attributes are defined and available etc...
         */
        void                    (*enterRule)            (pANTLR3_DEBUG_EVENT_LISTENER delboy, const char * grammarFileName, const char * ruleName);

        /** Because rules can have lots of alternatives, it is very useful to
         *  know which alt you are entering.  This is 1..n for n alts.
         */
        void                    (*enterAlt)                     (pANTLR3_DEBUG_EVENT_LISTENER delboy, int alt);

        /** This is the last thing executed before leaving a rule.  It is
         *  executed even if an exception is thrown.  This is triggered after
         *  error reporting and recovery have occurred (unless the exception is
         *  not caught in this rule).  This implies an "exitAlt" event.
         */
        void                    (*exitRule)                     (pANTLR3_DEBUG_EVENT_LISTENER delboy, const char * grammarFileName, const char * ruleName);

        /** Track entry into any (...) subrule other EBNF construct 
         */
        void                    (*enterSubRule)         (pANTLR3_DEBUG_EVENT_LISTENER delboy, int decisionNumber);
        
        void                    (*exitSubRule)          (pANTLR3_DEBUG_EVENT_LISTENER delboy, int decisionNumber);

        /** Every decision, fixed k or arbitrary, has an enter/exit event
         *  so that a GUI can easily track what LT/consume events are
         *  associated with prediction.  You will see a single enter/exit
         *  subrule but multiple enter/exit decision events, one for each
         *  loop iteration.
         */
        void                    (*enterDecision)        (pANTLR3_DEBUG_EVENT_LISTENER delboy, int decisionNumber);

        void                    (*exitDecision)         (pANTLR3_DEBUG_EVENT_LISTENER delboy, int decisionNumber);

        /** An input token was consumed; matched by any kind of element.
         *  Trigger after the token was matched by things like match(), matchAny().
         */
        void                    (*consumeToken)         (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_COMMON_TOKEN t);

        /** An off-channel input token was consumed.
         *  Trigger after the token was matched by things like match(), matchAny().
         *  (unless of course the hidden token is first stuff in the input stream).
         */
        void                    (*consumeHiddenToken)   (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_COMMON_TOKEN t);

        /** Somebody (anybody) looked ahead.  Note that this actually gets
         *  triggered by both LA and LT calls.  The debugger will want to know
         *  which Token object was examined.  Like consumeToken, this indicates
         *  what token was seen at that depth.  A remote debugger cannot look
         *  ahead into a file it doesn't have so LT events must pass the token
         *  even if the info is redundant.
         */
        void                    (*LT)                           (pANTLR3_DEBUG_EVENT_LISTENER delboy, int i, pANTLR3_COMMON_TOKEN t);

        /** The parser is going to look arbitrarily ahead; mark this location,
         *  the token stream's marker is sent in case you need it.
         */
        void                    (*mark)                         (pANTLR3_DEBUG_EVENT_LISTENER delboy, ANTLR3_MARKER marker);

        /** After an arbitrarily long lookahead as with a cyclic DFA (or with
         *  any backtrack), this informs the debugger that stream should be
         *  rewound to the position associated with marker.
         */
        void                    (*rewind)                       (pANTLR3_DEBUG_EVENT_LISTENER delboy, ANTLR3_MARKER marker);

        /** Rewind to the input position of the last marker.
         *  Used currently only after a cyclic DFA and just
         *  before starting a sem/syn predicate to get the
         *  input position back to the start of the decision.
         *  Do not "pop" the marker off the state.  mark(i)
         *  and rewind(i) should balance still.
         */
        void                    (*rewindLast)           (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        void                    (*beginBacktrack)       (pANTLR3_DEBUG_EVENT_LISTENER delboy, int level);

        void                    (*endBacktrack)         (pANTLR3_DEBUG_EVENT_LISTENER delboy, int level, ANTLR3_BOOLEAN successful);

        /** To watch a parser move through the grammar, the parser needs to
         *  inform the debugger what line/charPos it is passing in the grammar.
         *  For now, this does not know how to switch from one grammar to the
         *  other and back for island grammars etc...
         *
         *  This should also allow breakpoints because the debugger can stop
         *  the parser whenever it hits this line/pos.
         */
        void                    (*location)                     (pANTLR3_DEBUG_EVENT_LISTENER delboy, int line, int pos);

        /** A recognition exception occurred such as NoViableAltException.  I made
         *  this a generic event so that I can alter the exception hierarchy later
         *  without having to alter all the debug objects.
         *
         *  Upon error, the stack of enter rule/subrule must be properly unwound.
         *  If no viable alt occurs it is within an enter/exit decision, which
         *  also must be rewound.  Even the rewind for each mark must be unwound.
         *  In the Java target this is pretty easy using try/finally, if a bit
         *  ugly in the generated code.  The rewind is generated in DFA.predict()
         *  actually so no code needs to be generated for that.  For languages
         *  w/o this "finally" feature (C++?), the target implementor will have
         *  to build an event stack or something.
         *
         *  Across a socket for remote debugging, only the RecognitionException
         *  data fields are transmitted.  The token object or whatever that
         *  caused the problem was the last object referenced by LT.  The
         *  immediately preceding LT event should hold the unexpected Token or
         *  char.
         *
         *  Here is a sample event trace for grammar:
         *
         *  b : C ({;}A|B) // {;} is there to prevent A|B becoming a set
     *    | D
     *    ;
     *
         *  The sequence for this rule (with no viable alt in the subrule) for
         *  input 'c c' (there are 3 tokens) is:
         *
         *              commence
         *              LT(1)
         *              enterRule b
         *              location 7 1
         *              enter decision 3
         *              LT(1)
         *              exit decision 3
         *              enterAlt1
         *              location 7 5
         *              LT(1)
         *              consumeToken [c/<4>,1:0]
         *              location 7 7
         *              enterSubRule 2
         *              enter decision 2
         *              LT(1)
         *              LT(1)
         *              recognitionException NoViableAltException 2 1 2
         *              exit decision 2
         *              exitSubRule 2
         *              beginResync
         *              LT(1)
         *              consumeToken [c/<4>,1:1]
         *              LT(1)
         *              endResync
         *              LT(-1)
         *              exitRule b
         *              terminate
         */
        void                    (*recognitionException) (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_EXCEPTION e);

        /** Indicates the recognizer is about to consume tokens to resynchronize
         *  the parser.  Any consume events from here until the recovered event
         *  are not part of the parse--they are dead tokens.
         */
        void                    (*beginResync)                  (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        /** Indicates that the recognizer has finished consuming tokens in order
         *  to resynchronize.  There may be multiple beginResync/endResync pairs
         *  before the recognizer comes out of errorRecovery mode (in which
         *  multiple errors are suppressed).  This will be useful
         *  in a gui where you want to probably grey out tokens that are consumed
         *  but not matched to anything in grammar.  Anything between
         *  a beginResync/endResync pair was tossed out by the parser.
         */
        void                    (*endResync)                    (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        /** A semantic predicate was evaluate with this result and action text 
        */
        void                    (*semanticPredicate)    (pANTLR3_DEBUG_EVENT_LISTENER delboy, ANTLR3_BOOLEAN result, const char * predicate);

        /** Announce that parsing has begun.  Not technically useful except for
         *  sending events over a socket.  A GUI for example will launch a thread
         *  to connect and communicate with a remote parser.  The thread will want
         *  to notify the GUI when a connection is made.  ANTLR parsers
         *  trigger this upon entry to the first rule (the ruleLevel is used to
         *  figure this out).
         */
        void                    (*commence)                             (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        /** Parsing is over; successfully or not.  Mostly useful for telling
         *  remote debugging listeners that it's time to quit.  When the rule
         *  invocation level goes to zero at the end of a rule, we are done
         *  parsing.
         */
        void                    (*terminate)                    (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        /// Retrieve acknowledge response from the debugger. in fact this
        /// response is never used at the moment. So we just read whatever
        /// is in the socket buffer and throw it away.
        ///
        void                    (*ack)                                  (pANTLR3_DEBUG_EVENT_LISTENER delboy);

        // T r e e  P a r s i n g

        /** Input for a tree parser is an AST, but we know nothing for sure
         *  about a node except its type and text (obtained from the adaptor).
         *  This is the analog of the consumeToken method.  The ID is usually 
         *  the memory address of the node.
         *  If the type is UP or DOWN, then
         *  the ID is not really meaningful as it's fixed--there is
         *  just one UP node and one DOWN navigation node.
         *
         *  Note that unlike the Java version, the node type of the C parsers
         *  is always fixed as pANTLR3_BASE_TREE because all such structures
         *  contain a super pointer to their parent, which is generally COMMON_TREE and within
         *  that there is a super pointer that can point to a user type that encapsulates it.
         *  Almost akin to saying that it is an interface pointer except we don't need to
         *  know what the interface is in full, just those bits that are the base.
         * @param t
         */
        void                    (*consumeNode)                  (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE t);

        /** The tree parser looked ahead.  If the type is UP or DOWN,
         *  then the ID is not really meaningful as it's fixed--there is
         *  just one UP node and one DOWN navigation node.
         */
        void                    (*LTT)                                  (pANTLR3_DEBUG_EVENT_LISTENER delboy, int i, pANTLR3_BASE_TREE t);


        // A S T  E v e n t s

        /** A nil was created (even nil nodes have a unique ID...
         *  they are not "null" per se).  As of 4/28/2006, this
         *  seems to be uniquely triggered when starting a new subtree
         *  such as when entering a subrule in automatic mode and when
         *  building a tree in rewrite mode.
     *
         *  If you are receiving this event over a socket via
         *  RemoteDebugEventSocketListener then only t.ID is set.
         */
        void                    (*nilNode)                              (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE t);

        /** If a syntax error occurs, recognizers bracket the error
         *  with an error node if they are building ASTs. This event
         *  notifies the listener that this is the case
         */
        void                    (*errorNode)                    (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE t);

        /** Announce a new node built from token elements such as type etc...
         * 
         *  If you are receiving this event over a socket via
         *  RemoteDebugEventSocketListener then only t.ID, type, text are
         *  set.
         */
        void                    (*createNode)                   (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE t);

        /** Announce a new node built from an existing token.
         *
         *  If you are receiving this event over a socket via
         *  RemoteDebugEventSocketListener then only node.ID and token.tokenIndex
         *  are set.
         */
        void                    (*createNodeTok)                (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE node, pANTLR3_COMMON_TOKEN token);

        /** Make a node the new root of an existing root.  See
         *
         *  Note: the newRootID parameter is possibly different
         *  than the TreeAdaptor.becomeRoot() newRoot parameter.
         *  In our case, it will always be the result of calling
         *  TreeAdaptor.becomeRoot() and not root_n or whatever.
         *
         *  The listener should assume that this event occurs
         *  only when the current subrule (or rule) subtree is
         *  being reset to newRootID.
         * 
         *  If you are receiving this event over a socket via
         *  RemoteDebugEventSocketListener then only IDs are set.
         *
         *  @see org.antlr.runtime.tree.TreeAdaptor.becomeRoot()
         */
        void                    (*becomeRoot)                   (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE newRoot, pANTLR3_BASE_TREE oldRoot);

        /** Make childID a child of rootID.
         *
         *  If you are receiving this event over a socket via
         *  RemoteDebugEventSocketListener then only IDs are set.
         * 
         *  @see org.antlr.runtime.tree.TreeAdaptor.addChild()
         */
        void                    (*addChild)                             (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE root, pANTLR3_BASE_TREE child);

        /** Set the token start/stop token index for a subtree root or node.
         *
         *  If you are receiving this event over a socket via
         *  RemoteDebugEventSocketListener then only t.ID is set.
         */
        void                    (*setTokenBoundaries)   (pANTLR3_DEBUG_EVENT_LISTENER delboy, pANTLR3_BASE_TREE t, ANTLR3_MARKER tokenStartIndex, ANTLR3_MARKER tokenStopIndex);

        /// Free up the resources allocated to this structure
        ///
        void                    (*free)                                 (pANTLR3_DEBUG_EVENT_LISTENER delboy);

}
        ANTLR3_DEBUG_EVENT_LISTENER;

#ifdef __cplusplus
}
#endif

#endif