tdegraphics/kpovmodeler/pmparser.cpp

/*
**************************************************************************
                                 description
                             --------------------
    copyright            : (C) 2000-2003 by Andreas Zehender
    email                : zehender@kde.org
**************************************************************************

**************************************************************************
*                                                                        *
*  This program is free software; you can redistribute it and/or modify  *
*  it under the terms of the GNU General Public License as published by  *
*  the Free Software Foundation; either version 2 of the License, or     *
*  (at your option) any later version.                                   *
*                                                                        *
**************************************************************************/


#include "pmparser.h"

#include <tqstring.h>
#include <tqbuffer.h>
#include <tdelocale.h>

#include "pmpart.h"
#include "pmdeclare.h"
#include "pmerrorflags.h"
#include "pmrecursiveobjectiterator.h"
#include "pmdebug.h"

unsigned int PMParser::s_maxErrors = 30;
unsigned int PMParser::s_maxWarnings = 50;


PMParser::PMParser( PMPart* part, TQIODevice* dev )
      : m_okDeclares( 101 )
{
   m_pPart = part;
   m_pDevice = dev;
   m_bDeviceCreated = false;
   
   init( );
}

PMParser::PMParser( PMPart* part, const TQByteArray& array )
      : m_okDeclares( 101 )
{
   m_pPart = part;
   TQBuffer* buffer = new TQBuffer( array );
   buffer->open( IO_ReadOnly );
   m_pDevice = buffer;
   m_bDeviceCreated = true;
   
   init( );
}

void PMParser::init( )
{
   m_okDeclares.setAutoDelete( true );
   m_pLocalST.setAutoDelete( true );
   
   m_lineNum = -1;
   m_pResultList = 0;
   m_errors = 0;
   m_warnings = 0;
   m_bFatalError = false;
   m_shownMessages = 0;
   m_messages.clear( );
   
   m_pTopParent = 0;
   m_renamedObjectSymbols.clear( );
   m_okDeclares.clear( );
   m_pNextCheckDeclare = 0;
}

PMParser::~PMParser( )
{
   if( m_bDeviceCreated )
      delete m_pDevice;
}

void PMParser::printMessage( const PMPMessage messageNum )
{
   if( !( m_shownMessages & messageNum ) )
   {
      m_shownMessages |= messageNum;
      
      switch( messageNum )
      {
         case PMMClockDefault:
            printWarning( i18n( "Using the default value of 0.0 for clock" ) );
            break;
         case PMMClockDeltaDefault:
            printWarning( i18n( "Using the default value of 1.0 for clock_delta" ) );
            break;
         case PMMSpecialRawComment:
            m_messages += PMMessage( i18n( "Note: The full povray syntax is not supported yet. "
					   "If you want to add unsupported povray code to the "
					   "scene, you can put this code between the two "
					   "special comments \"//*PMRawBegin\" and "
					   "\"//*PMRawEnd\"." ) );
            break;
      }
   }
}

void PMParser::printMessage( const TQString& type, const TQString& msg )
{
   if( m_lineNum >= 0 )
      m_messages += PMMessage( i18n( "Line %1: " ).arg( m_lineNum ) + type + ": " + msg );
   else
      m_messages += PMMessage( type + ": " + msg );
}

void PMParser::printError( const TQString& msg )
{
   if( m_errors < s_maxErrors )
   {
      printMessage( i18n( "Error" ), msg );
      m_errors++;
   }
   else if( m_errors == s_maxErrors )
   {
      m_messages += PMMessage( i18n( "Maximum of %1 errors reached." )
                    .arg( s_maxErrors ) );
      m_errors++;
   }
}

void PMParser::printWarning( const TQString& msg )
{
   if( m_warnings < s_maxWarnings )
   {
      printMessage( i18n( "Warning" ), msg );
      m_warnings++;
   }
   else if( m_warnings == s_maxWarnings )
   {
      m_messages += PMMessage( i18n( "Maximum of %1 warnings reached." )
                    .arg( s_maxWarnings ) );
      m_warnings++;
   }
}

void PMParser::printExpected( const char c, const char* sValue )
{
   printError( i18n( "'%1' expected, found token '%2' instead." )
               .arg( c ).arg( sValue ) );
}

void PMParser::printExpected( const TQString& str, const char* sValue )
{
   printError( i18n( "'%1' expected, found token '%2' instead." )
               .arg( str ).arg( sValue ) );
}

void PMParser::printUnexpected( const TQString& str )
{
   printError( i18n( "Unexpected token '%1'." ).arg( str ) );
}

void PMParser::printInfo( const TQString& msg )
{
   printMessage( i18n( "Info" ), msg );
}

int PMParser::errorFlags( ) const
{
   int result = 0;
   if( errors( ) )
      result |= PMEError;
   if( warnings( ) )
      result |= PMEWarning;
   if( fatal( ) )
      result |= PMEFatal;
   return result;
}


void PMParser::parse( PMObjectList* list, PMObject* parent,
                      PMObject* after )
{
   m_pResultList = list;
   m_pTopParent = parent;
   m_pAfter = after;

   // find first item, that can be a declare and can be used as link
   // for parsed objects.
   if( parent )
   {
      if( parent->type( ) == "Scene" )
      {
         if( after )
            m_pNextCheckDeclare = after;
         else
            m_pNextCheckDeclare = 0;
      }
      else
      {
         PMObject* obj = parent;
         bool stop = false;
         
         // go to parents, until the parent is the scene
         // (declares can only be inserted as top level objects)
         do
         {
            if( obj->parent( ) )
            {
               if( obj->parent( )->type( ) == "Scene" )
                  stop = true;
               else
                  obj = obj->parent( );
            }
            else
            {
               obj = 0;
               stop = true;
            }
         }
         while( obj && !stop );

         // now obj is the top level parent of the object, where parsed objects
         // will be inserted
         if( obj )
            m_pNextCheckDeclare = obj->prevSibling( );
         else
            m_pNextCheckDeclare = 0;
      }
   }
   
   topParse( );

   TQPtrListIterator<PMSymbol> it( m_renamedObjectSymbols );
   for( ; it.current( ); ++it )
      it.current( )->setRenamedSymbol( 0 );
   m_renamedObjectSymbols.clear( );
   m_pLocalST.clear( );

   if( ( errors( ) || warnings( ) ) && m_pResultList->isEmpty( ) )
      setFatalError( );
}

bool PMParser::insertChild( PMObject* child, PMObject* parent )
{
   bool inserted = false;
   
   if( parent )
   {
      if( parent->canInsert( child, parent->lastChild( ) ) )
      {
         parent->appendChild( child );
         inserted = true;
      }
      else
      {
         printError( i18n( "Can't insert %1 into %2." )
                     .arg( child->description( ) )
                     .arg( parent->description( ) ) );
      }
   }
   else
   {
      if( m_pTopParent )
      {
         if( m_pTopParent->canInsert( child, m_pAfter, m_pResultList ) )
         {
            m_pResultList->append( child );
            inserted = true;
         }
         else
         {
            printError( i18n( "Can't insert %1 into %2." )
                        .arg( child->description( ) )
                        .arg( m_pTopParent->description( ) ) );
         }
      }
      else
      {
         // these lines should not be executed
         // m_pTopParent may not be null
         m_pResultList->append( child );
         inserted = true;
      }
   }

   if( !inserted )
   {
      // insert error
      // remove all links
      PMRecursiveObjectIterator rit( child );
      PMDeclare* decl = 0;
      
      for( ; rit.current( ); ++rit )
      {
         decl = rit.current( )->linkedObject( );
         if( decl )
            decl->removeLinkedObject( rit.current( ) );
      }
   }
   
   return inserted;
}

void PMParser::checkID( PMDeclare* decl )
{
   PMSymbolTable* st = m_pPart->symbolTable( );
   PMSymbol* s = m_pLocalST.find( decl->id( ) );
   if( !s )
      s = st->find( decl->id( ) );
   
   if( s )
   {
      PMSymbol* newSym = st->findNewID( s->id( ) + "_", decl );
      s->setRenamedSymbol( newSym );
      // Symbol can be inserted multiple times
      // Faster than searching for s and inserting s
      // if the list does not contain it.
      m_renamedObjectSymbols.append( s );
      
      if( m_pTopParent )
         m_pLocalST.insert( decl->id( ), newSym ); // paste/drop
      else
         st->insert( decl->id( ), newSym );        // load file
   }
   else
   {
      s = new PMSymbol( decl->id( ), decl );
      if( m_pTopParent )
         m_pLocalST.insert( decl->id( ), s );      // paste/drop
      else
         st->insert( decl->id( ), s );             // load file
      m_okDeclares.insert( decl->id( ), new bool( true ) );
   }
}

void PMParser::checkID( const TQString& id, const PMValue& v )
{
   PMSymbolTable* st = m_pPart->symbolTable( );
   PMSymbol* s = m_pLocalST.find( id );
   
   if( s )
   {
      PMSymbol* newSym = new PMSymbol( st->findNewID( id + "_" ), v );
      s->setRenamedSymbol( newSym );
      // Symbol can be inserted multiple times
      // Faster than searching for s and inserting s
      // if the list does not contain it.
      m_renamedObjectSymbols.append( s );
      
      if( m_pTopParent )
         m_pLocalST.insert( id, newSym ); // paste/drop

      // values are never inserted into the parts symbol table
      // else
      //   st->insert( decl->id( ), newSym );        // load file
   }
   else
   {
      s = new PMSymbol( id, v );
      if( m_pTopParent )
         m_pLocalST.insert( id, s );      // paste/drop
      
      // values are never inserted into the parts symbol table
      // else
      //   st->insert( decl->id( ), s );             // load file
      
      m_okDeclares.insert( id, new bool( true ) );
   }
}

PMDeclare* PMParser::checkLink( const TQString& id )
{
   PMSymbolTable* t = m_pPart->symbolTable( );
   bool ok = false;

   // is object declared?
   PMSymbol* s = m_pLocalST.find( id );
   if( !s )
      s = t->find( id );
   
   if( !s )
      printError( i18n( "Undefined object \"%1\"." ).arg( id ) );
   else if( s->type( ) != PMSymbol::Object )
      printError( i18n( "Undefined object \"%1\"." ).arg( id ) );
   else
   {
      // the object is declared
      // is the id already in m_okDeclares
      bool* lok = m_okDeclares.find( id );
      if( lok )
         ok = true;
      else
      {
         // the id is not in m_okDeclares
         PMObject* obj = s->object( );
         while( m_pNextCheckDeclare && !ok )
         {
            if( m_pNextCheckDeclare->isA( "Declare" ) )
            {
               PMDeclare* decl = ( PMDeclare* ) m_pNextCheckDeclare;
               m_okDeclares.insert( decl->id( ), new bool( true ) );
            }
            if( m_pNextCheckDeclare == obj )
               ok = true;

            m_pNextCheckDeclare = m_pNextCheckDeclare->prevSibling( );
         }
      }

      if( !ok )
         printError( i18n( "Object \"%1\" is undefined at that point." )
                     .arg( id ) );
   }

   if( ok )
   {
      while( s->renamedSymbol( ) )
         s = s->renamedSymbol( );

      return s->object( );
   }
   
   return 0;
}

PMSymbol* PMParser::getSymbol( const TQString& id ) const
{
   PMSymbol* s = m_pLocalST.find( id );
   if( !s )
      s = m_pPart->symbolTable( )->find( id );
   return s;
}