tdevelop/lib/cppparser/lexercache.cpp

/***************************************************************************
   copyright            : (C) 2006 by David Nolden
   email                : david.nolden.tdevelop@art-master.de
***************************************************************************/

/***************************************************************************
 *                                                                         *
 *   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 "lexercache.h"
#include "driver.h"
#include <kdebug.h>

LexerCache::LexerCache( Driver* d ) : m_driver( d ) {}

void LexerCache::addLexedFile( const CachedLexedFilePointer& file ) {
  //kdDebug( 9007 ) << "LexerCache: adding an instance of " << file->fileName().str() << endl;

  std::pair< CachedLexedFileMap::iterator, CachedLexedFileMap::iterator> files = m_files.equal_range( file->fileName() );

  if ( files.first == files.second ) {
    m_files.insert( std::make_pair( file->fileName(), file ) );
  } else {
      //Make sure newer files appear first
      m_files.insert( files.first, std::make_pair( file->fileName(), file ) );
  }

  int cnt = 0;
  while ( files.first != files.second ) {
    if ( sourceChanged( *( *( files.first ) ).second ) ) {
      m_files.erase( files.first++ );
    } else  {
      cnt++;
      files.first++;
    }
  }
  //kdDebug( 9007 ) << "LexerCache: new count of cached instances for the file: " << cnt << endl;
}

CachedLexedFilePointer LexerCache::lexedFile( const HashedString& fileName ) {
  initFileModificationCache();
  std::pair< CachedLexedFileMap::iterator, CachedLexedFileMap::iterator> files = m_files.equal_range( fileName );

  ///@todo optimize with standard-algorithms(by first computing the intersection)

  /*  if( files.first != files.second )
        //kdDebug( 9007 ) << "LexerCache: cache for file " << fileName.str() << " is not empty" << endl;
    else
        //kdDebug( 9007 ) << "LexerCache: cache for file " << fileName.str() << " is empty" << endl;*/

  while ( files.first != files.second ) {
    const CachedLexedFile& file( *( *( files.first ) ).second );
    if ( sourceChanged( file ) ) {
      //kdDebug( 9007 ) << "LexerCache: cache for file " << fileName.str() << " is being discarded because the file was modified" << endl;
      m_files.erase( files.first++ );
      continue;
    }
    bool success = true;
    //Make sure that none of the macros stored in the driver affect the file in a different way than the one before
    Driver::MacroMap::const_iterator end = m_driver->macros().end();
    for ( Driver::MacroMap::const_iterator rit = m_driver->macros().begin(); rit != end; ) {
      Driver::MacroMap::const_iterator it = rit;
      ++rit;
      if ( rit != end && ( *it ).first == ( *rit ).first ) continue; //Always only use the last macro of the same name for comparison, it is on top of the macro-stack
      if (( *it ).second.isUndef() ) continue; //Undef-macros theoretically don't exist

      if ( file.hasString(( *it ).first ) ) {
        if ( file.m_usedMacros.hasMacro(( *it ).first ) ) {
          Macro m( file.m_usedMacros.macro(( *it ).first.str() ) );
          if ( !( m == ( *it ).second ) ) {
            //kdDebug( 9007 ) << "LexerCache: The cached file " << fileName.str() << " depends on the string \"" << ( *it ).first.str() << "\" and used a macro for it with the body \"" << m.body() << "\"(from " << m.fileName() << "), but the driver contains the same macro with body \"" << ( *it ).second.body() << "\"(from " << ( *it ).second.fileName() << "), cache is not used" << endl;

            //Macro with the same name was used, but it is different
            success = false;
            break;
          }

        } else {
          //There is a macro that affects the file, but was not used while the previous parse
          //kdDebug( 9007 ) << "LexerCache: The cached file " << fileName.str() << " depends on the string \"" << ( *it ).first.str() << "\" and the driver contains a macro of that name with body \"" << ( *it ).second.body() << "\"(from " << ( *it ).second.fileName() << "), the cached file is not used" << endl;
          success = false;
          break;
        }
      }
    }
    //Make sure that all external macros used by the file now exist too
  MacroSet::Macros::const_iterator end2 = file.usedMacros().macros().end();
    for ( MacroSet::Macros::const_iterator it = file.usedMacros().macros().begin(); it != end2; ++it ) {
      if ( !m_driver->hasMacro( HashedString(( *it ).name() ) ) ) {
        //kdDebug( 9007 ) << "LexerCache: The cached file " << fileName.str() << " used a macro called \"" << it->name() << "\"(from " << it->fileName() << "), but the driver does not contain that macro, the cached file is not used" << endl;
        success = false;
        break;
      }
    }

    if ( success ) {
      //kdDebug( 9007 ) << "LexerCache: Using cached file " << fileName.str() << endl;
      (*files.first).second->access();
      return ( *files.first ).second;
    }
    ++files.first;
  }
  return CachedLexedFilePointer();
}

TQDateTime LexerCache::fileModificationTimeCached( const HashedString& fileName ) {
  FileModificationMap::const_iterator it = m_fileModificationCache.find( fileName );
  if( it != m_fileModificationCache.end() ) {
    ///Use the cache for 10 seconds
    if( (*it).second.m_readTime.secsTo( m_currentDateTime ) < 10 ) {
      return (*it).second.m_modificationTime;
    }
  }
  
  TQFileInfo fileInfo( fileName.str() );
  m_fileModificationCache[fileName].m_readTime = TQDateTime::currentDateTime();
  m_fileModificationCache[fileName].m_modificationTime = fileInfo.lastModified();
  return fileInfo.lastModified();
  
}

//Should be cached too!
bool LexerCache::sourceChanged( const CachedLexedFile& file ) {
  //@todo Check if any of the dependencies changed

  TQDateTime modTime = fileModificationTimeCached( file.fileName() );
  
  if ( modTime != file.modificationTime() )
    return true;

  for( TQMap<HashedString, TQDateTime>::const_iterator it = file.allModificationTimes().begin(); it != file.allModificationTimes().end(); ++it ) {
    TQDateTime modTime = fileModificationTimeCached( it.key() );
    if( modTime != *it )
      return true;
  }
  
  return false;
}


void LexerCache::clear() {
  m_files.clear();
  m_totalStringSet.clear();
  m_fileModificationCache.clear();
}

void LexerCache::erase( const CacheNode* node ) {
  std::pair< CachedLexedFileMap::iterator, CachedLexedFileMap::iterator> files = m_files.equal_range( ((const CachedLexedFile*)(node))->fileName() );
  while ( files.first != files.second ) {
    if( (*files.first).second.data() == ((const CachedLexedFile*)(node)) ) {
      m_files.erase( files.first );
      return;
    }
      files.first++;
  }
  //kdDebug( 9007 ) << "Error: could not find a node in the list for file " << ((const CachedLexedFile*)(node))->fileName().str() << endl;
}

CachedLexedFile::CachedLexedFile( const HashedString& fileName, LexerCache* manager ) : CacheNode( manager ), m_fileName( fileName ) {
  TQFileInfo fileInfo( fileName.str() );
  m_modificationTime = fileInfo.lastModified();
  m_allModificationTimes[ fileName ] = m_modificationTime;
}

void CachedLexedFile::addDefinedMacro( const Macro& macro ) {
#ifdef LEXERCACHE_DEBUG
  //kdDebug( 9007 ) << "defined macro " << macro.name() << endl;
#endif
  m_definedMacros.addMacro( macro );
  m_definedMacroNames.insert( HashedString( macro.name() ) );
}

void CachedLexedFile::addUsedMacro( const Macro& macro ) {
  if ( !m_definedMacros.hasMacro( macro.name() ) ) {
#ifdef LEXERCACHE_DEBUG
    //kdDebug( 9007 ) << "used macro " << macro.name() << endl;
#endif
    m_usedMacros.addMacro( macro );
  }
}

void CachedLexedFile::addIncludeFile( const HashedString& file, const TQDateTime& modificationTime ) {
  m_includeFiles.insert( file );
  m_allModificationTimes[file] = modificationTime;
}


TQDateTime CachedLexedFile::modificationTime() const {
  return m_modificationTime;
}

void CachedLexedFile::addProblem( const Problem& p ) {
  m_problems << p;
}

TQValueList<Problem>  CachedLexedFile::problems() const {
  return m_problems;
}

//The parameter should be a CachedLexedFile that was lexed AFTER the content of this file
void CachedLexedFile::merge( const CachedLexedFile& file ) {
#ifdef LEXERCACHE_DEBUG
  //kdDebug( 9007 ) << fileName().str() << ": merging " << file.fileName().str() << endl << "defined in this: " << m_definedMacroNames.print().c_str() << endl << "defined macros in other: " << file.m_definedMacroNames.print().c_str() << endl;;
#endif
  HashedStringSet tempStrings = file.m_strings;
  tempStrings -= m_definedMacroNames;
  m_strings += tempStrings;
  m_includeFiles += file.m_includeFiles;
  //Only add macros to the usedMacros-list that were not defined locally
  for ( MacroSet::Macros::const_iterator it = file.m_usedMacros.macros().begin(); it != file.m_usedMacros.macros().end(); ++it ) {
    if ( !m_definedMacros.hasMacro(( *it ).name() ) ) {///If the macro was not defined locally, add it to the macros-list.
#ifdef LEXERCACHE_DEBUG
      //kdDebug( 9007 ) << "inserting used macro " << ( *it ).name() << endl;
#endif
      m_usedMacros.addMacro( *it );
    }
  }

  m_definedMacros.merge( file.m_definedMacros );
  m_definedMacroNames += file.m_definedMacroNames;
  
  for( TQMap<HashedString, TQDateTime>::const_iterator it = file.m_allModificationTimes.begin(); it != file.m_allModificationTimes.end(); ++it )
    m_allModificationTimes[it.key()] = *it;

  
#ifdef LEXERCACHE_DEBUG
  //kdDebug( 9007 ) << fileName().str() << ": defined in this after merge: " << m_definedMacroNames.print().c_str() << endl;
#endif
  m_problems += file.m_problems;
}

size_t CachedLexedFile::hash() const {
  return m_usedMacros.valueHash() + m_usedMacros.idHash() + m_definedMacros.idHash() + m_definedMacros.valueHash() + m_strings.hash();
}

void LexerCache::initFileModificationCache() {
  m_currentDateTime = TQDateTime::currentDateTime();
}

void LexerCache::saveMemory() {
  m_fileModificationCache.clear();

  m_totalStringSet.clear(); ///it's unclear how often this should be emptied. It may happen that completely unused strings end up in this set, then deleting it will save us memory.
}