//! Sets ellipsoid by supplied radii
// Inverse flattening is calculated with invf = a/(a-b)
// Also, b = a-(a/invf)
bool  QgsDistanceArea::setEllipsoid( double semiMajor, double semiMinor )
{
  mEllipsoid = QString( "PARAMETER:%1:%2" ).arg( semiMajor ).arg( semiMinor );
  mSemiMajor = semiMajor;
  mSemiMinor = semiMinor;
  mInvFlattening = mSemiMajor / ( mSemiMajor - mSemiMinor );

  computeAreaInit();

  return true;
}
Beispiel #2
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//! Copy helper. Avoid Sqlite3 accesses.
void QgsDistanceArea::_copy( const QgsDistanceArea & origDA )
{
  mEllipsoidalMode = origDA.mEllipsoidalMode;
  mEllipsoid = origDA.mEllipsoid;
  mSemiMajor = origDA.mSemiMajor;
  mSemiMinor = origDA.mSemiMinor;
  mInvFlattening = origDA.mInvFlattening;
  // Some calculations and trig. Should not be TOO time consuming.
  // Alternatively we could copy the temp vars?
  computeAreaInit();
  mCoordTransform = origDA.mCoordTransform;
}
//! Copy helper. Avoid Sqlite3 accesses.
void QgsDistanceArea::_copy( const QgsDistanceArea & origDA )
{
  mEllipsoidalMode = origDA.mEllipsoidalMode;
  mEllipsoid = origDA.mEllipsoid;
  mSemiMajor = origDA.mSemiMajor;
  mSemiMinor = origDA.mSemiMinor;
  mInvFlattening = origDA.mInvFlattening;
  // Some calculations and trig. Should not be TOO time consuming.
  // Alternatively we could copy the temp vars?
  computeAreaInit();
  delete mCoordTransform;
  mCoordTransform = new QgsCoordinateTransform( origDA.mCoordTransform->sourceCrs(), origDA.mCoordTransform->destCRS() );
}
bool QgsDistanceArea::setEllipsoid( const QString& ellipsoid )
{
  QString radius, parameter2;
  //
  // SQLITE3 stuff - get parameters for selected ellipsoid
  //
  sqlite3      *myDatabase;
  const char   *myTail;
  sqlite3_stmt *myPreparedStatement;
  int           myResult;

  // Shortcut if ellipsoid is none.
  if ( ellipsoid == GEO_NONE )
  {
    mEllipsoid = GEO_NONE;
    return true;
  }

  // Check if we have a custom projection, and set from text string.
  // Format is "PARAMETER:<semi-major axis>:<semi minor axis>
  // Numbers must be with (optional) decimal point and no other separators (C locale)
  // Distances in meters.  Flattening is calculated.
  if ( ellipsoid.startsWith( "PARAMETER" ) )
  {
    QStringList paramList = ellipsoid.split( ':' );
    bool semiMajorOk, semiMinorOk;
    double semiMajor = paramList[1].toDouble( & semiMajorOk );
    double semiMinor = paramList[2].toDouble( & semiMinorOk );
    if ( semiMajorOk && semiMinorOk )
    {
      return setEllipsoid( semiMajor, semiMinor );
    }
    else
    {
      return false;
    }
  }

  // Continue with PROJ.4 list of ellipsoids.

  //check the db is available
  myResult = sqlite3_open_v2( QgsApplication::srsDbFilePath().toUtf8().data(), &myDatabase, SQLITE_OPEN_READONLY, nullptr );
  if ( myResult )
  {
    QgsMessageLog::logMessage( QObject::tr( "Can't open database: %1" ).arg( sqlite3_errmsg( myDatabase ) ) );
    // XXX This will likely never happen since on open, sqlite creates the
    //     database if it does not exist.
    return false;
  }
  // Set up the query to retrieve the projection information needed to populate the ELLIPSOID list
  QString mySql = "select radius, parameter2 from tbl_ellipsoid where acronym='" + ellipsoid + '\'';
  myResult = sqlite3_prepare( myDatabase, mySql.toUtf8(), mySql.toUtf8().length(), &myPreparedStatement, &myTail );
  // XXX Need to free memory from the error msg if one is set
  if ( myResult == SQLITE_OK )
  {
    if ( sqlite3_step( myPreparedStatement ) == SQLITE_ROW )
    {
      radius = QString( reinterpret_cast< const char * >( sqlite3_column_text( myPreparedStatement, 0 ) ) );
      parameter2 = QString( reinterpret_cast< const char * >( sqlite3_column_text( myPreparedStatement, 1 ) ) );
    }
  }
  // close the sqlite3 statement
  sqlite3_finalize( myPreparedStatement );
  sqlite3_close( myDatabase );

  // row for this ellipsoid wasn't found?
  if ( radius.isEmpty() || parameter2.isEmpty() )
  {
    QgsDebugMsg( QString( "setEllipsoid: no row in tbl_ellipsoid for acronym '%1'" ).arg( ellipsoid ) );
    return false;
  }

  // get major semiaxis
  if ( radius.left( 2 ) == "a=" )
    mSemiMajor = radius.mid( 2 ).toDouble();
  else
  {
    QgsDebugMsg( QString( "setEllipsoid: wrong format of radius field: '%1'" ).arg( radius ) );
    return false;
  }

  // get second parameter
  // one of values 'b' or 'f' is in field parameter2
  // second one must be computed using formula: invf = a/(a-b)
  if ( parameter2.left( 2 ) == "b=" )
  {
    mSemiMinor = parameter2.mid( 2 ).toDouble();
    mInvFlattening = mSemiMajor / ( mSemiMajor - mSemiMinor );
  }
  else if ( parameter2.left( 3 ) == "rf=" )
  {
    mInvFlattening = parameter2.mid( 3 ).toDouble();
    mSemiMinor = mSemiMajor - ( mSemiMajor / mInvFlattening );
  }
  else
  {
    QgsDebugMsg( QString( "setEllipsoid: wrong format of parameter2 field: '%1'" ).arg( parameter2 ) );
    return false;
  }

  QgsDebugMsg( QString( "setEllipsoid: a=%1, b=%2, 1/f=%3" ).arg( mSemiMajor ).arg( mSemiMinor ).arg( mInvFlattening ) );


  // get spatial ref system for ellipsoid
  QString proj4 = "+proj=longlat +ellps=" + ellipsoid + " +no_defs";
  QgsCoordinateReferenceSystem destCRS;
  destCRS.createFromProj4( proj4 );
  //TODO: createFromProj4 used to save to the user database any new CRS
  // this behavior was changed in order to separate creation and saving.
  // Not sure if it necessary to save it here, should be checked by someone
  // familiar with the code (should also give a more descriptive name to the generated CRS)
  if ( destCRS.srsid() == 0 )
  {
    QString myName = QString( " * %1 (%2)" )
                     .arg( QObject::tr( "Generated CRS", "A CRS automatically generated from layer info get this prefix for description" ),
                           destCRS.toProj4() );
    destCRS.saveAsUserCRS( myName );
  }
  //

  // set transformation from project CRS to ellipsoid coordinates
  mCoordTransform->setDestCRS( destCRS );

  mEllipsoid = ellipsoid;

  // precalculate some values for area calculations
  computeAreaInit();

  return true;
}
bool QgsDistanceArea::setEllipsoid( const QString& ellipsoid )
{
  QString radius, parameter2;
  //
  // SQLITE3 stuff - get parameters for selected ellipsoid
  //
  sqlite3      *myDatabase;
  const char   *myTail;
  sqlite3_stmt *myPreparedStatement;
  int           myResult;

  // Shortcut if ellipsoid is none.
  if ( ellipsoid == "NONE" )
  {
    mEllipsoid = "NONE";
    return true;
  }

  //check the db is available
  myResult = sqlite3_open( QgsApplication::srsDbFilePath().toUtf8().data(), &myDatabase );
  if ( myResult )
  {
    QgsMessageLog::logMessage( QObject::tr( "Can't open database: %1" ).arg( sqlite3_errmsg( myDatabase ) ) );
    // XXX This will likely never happen since on open, sqlite creates the
    //     database if it does not exist.
    return false;
  }
  // Set up the query to retrieve the projection information needed to populate the ELLIPSOID list
  QString mySql = "select radius, parameter2 from tbl_ellipsoid where acronym='" + ellipsoid + "'";
  myResult = sqlite3_prepare( myDatabase, mySql.toUtf8(), mySql.toUtf8().length(), &myPreparedStatement, &myTail );
  // XXX Need to free memory from the error msg if one is set
  if ( myResult == SQLITE_OK )
  {
    if ( sqlite3_step( myPreparedStatement ) == SQLITE_ROW )
    {
      radius = QString(( char * )sqlite3_column_text( myPreparedStatement, 0 ) );
      parameter2 = QString(( char * )sqlite3_column_text( myPreparedStatement, 1 ) );
    }
  }
  // close the sqlite3 statement
  sqlite3_finalize( myPreparedStatement );
  sqlite3_close( myDatabase );

  // row for this ellipsoid wasn't found?
  if ( radius.isEmpty() || parameter2.isEmpty() )
  {
    QgsDebugMsg( QString( "setEllipsoid: no row in tbl_ellipsoid for acronym '%1'" ).arg( ellipsoid ) );
    return false;
  }

  // get major semiaxis
  if ( radius.left( 2 ) == "a=" )
    mSemiMajor = radius.mid( 2 ).toDouble();
  else
  {
    QgsDebugMsg( QString( "setEllipsoid: wrong format of radius field: '%1'" ).arg( radius ) );
    return false;
  }

  // get second parameter
  // one of values 'b' or 'f' is in field parameter2
  // second one must be computed using formula: invf = a/(a-b)
  if ( parameter2.left( 2 ) == "b=" )
  {
    mSemiMinor = parameter2.mid( 2 ).toDouble();
    mInvFlattening = mSemiMajor / ( mSemiMajor - mSemiMinor );
  }
  else if ( parameter2.left( 3 ) == "rf=" )
  {
    mInvFlattening = parameter2.mid( 3 ).toDouble();
    mSemiMinor = mSemiMajor - ( mInvFlattening / mSemiMajor );
  }
  else
  {
    QgsDebugMsg( QString( "setEllipsoid: wrong format of parameter2 field: '%1'" ).arg( parameter2 ) );
    return false;
  }

  QgsDebugMsg( QString( "setEllipsoid: a=%1, b=%2, 1/f=%3" ).arg( mSemiMajor ).arg( mSemiMinor ).arg( mInvFlattening ) );


  // get spatial ref system for ellipsoid
  QString proj4 = "+proj=longlat +ellps=" + ellipsoid + " +no_defs";
  QgsCoordinateReferenceSystem destCRS;
  destCRS.createFromProj4( proj4 );

  // set transformation from project CRS to ellipsoid coordinates
  mCoordTransform->setDestCRS( destCRS );

  // precalculate some values for area calculations
  computeAreaInit();

  mEllipsoid = ellipsoid;
  return true;
}
bool QgsDistanceArea::setEllipsoid( const QString& ellipsoid )
{
  // Shortcut if ellipsoid is none.
  if ( ellipsoid == GEO_NONE )
  {
    mEllipsoid = GEO_NONE;
    return true;
  }

  // Check if we have a custom projection, and set from text string.
  // Format is "PARAMETER:<semi-major axis>:<semi minor axis>
  // Numbers must be with (optional) decimal point and no other separators (C locale)
  // Distances in meters.  Flattening is calculated.
  if ( ellipsoid.startsWith( "PARAMETER" ) )
  {
    QStringList paramList = ellipsoid.split( ":" );
    bool semiMajorOk, semiMinorOk;
    double semiMajor = paramList[1].toDouble( & semiMajorOk );
    double semiMinor = paramList[2].toDouble( & semiMinorOk );
    if ( semiMajorOk && semiMinorOk )
    {
      return setEllipsoid( semiMajor, semiMinor );
    }
    else
    {
      return false;
    }
  }

  // Continue with PROJ.4 list of ellipsoids.
  QgsEllipsoidCache::Params params = QgsEllipsoidCache::instance()->getParams( ellipsoid );

  // row for this ellipsoid wasn't found?
  if ( params.radius.isEmpty() || params.parameter2.isEmpty() )
  {
    QgsDebugMsg( QString( "setEllipsoid: no row in tbl_ellipsoid for acronym '%1'" ).arg( ellipsoid ) );
    return false;
  }

  // get major semiaxis
  if ( params.radius.left( 2 ) == "a=" )
    mSemiMajor = params.radius.mid( 2 ).toDouble();
  else
  {
    QgsDebugMsg( QString( "setEllipsoid: wrong format of radius field: '%1'" ).arg( params.radius ) );
    return false;
  }

  // get second parameter
  // one of values 'b' or 'f' is in field parameter2
  // second one must be computed using formula: invf = a/(a-b)
  if ( params.parameter2.left( 2 ) == "b=" )
  {
    mSemiMinor = params.parameter2.mid( 2 ).toDouble();
    mInvFlattening = mSemiMajor / ( mSemiMajor - mSemiMinor );
  }
  else if ( params.parameter2.left( 3 ) == "rf=" )
  {
    mInvFlattening = params.parameter2.mid( 3 ).toDouble();
    mSemiMinor = mSemiMajor - ( mSemiMajor / mInvFlattening );
  }
  else
  {
    QgsDebugMsg( QString( "setEllipsoid: wrong format of parameter2 field: '%1'" ).arg( params.parameter2 ) );
    return false;
  }

  QgsDebugMsg( QString( "setEllipsoid: a=%1, b=%2, 1/f=%3" ).arg( mSemiMajor ).arg( mSemiMinor ).arg( mInvFlattening ) );


  // get spatial ref system for ellipsoid
  QString proj4 = "+proj=longlat +ellps=" + ellipsoid + " +no_defs";
  QgsCoordinateReferenceSystem destCRS = QgsCRSCache::instance()->crsByProj4( proj4 );
  //TODO: createFromProj4 used to save to the user database any new CRS
  // this behavior was changed in order to separate creation and saving.
  // Not sure if it necessary to save it here, should be checked by someone
  // familiar with the code (should also give a more descriptive name to the generated CRS)
  if ( destCRS.srsid() == 0 )
  {
    QString myName = QString( " * %1 (%2)" )
                     .arg( QObject::tr( "Generated CRS", "A CRS automatically generated from layer info get this prefix for description" ) )
                     .arg( destCRS.toProj4() );
    destCRS.saveAsUserCRS( myName );
  }
  //

  // set transformation from project CRS to ellipsoid coordinates
  mCoordTransform->setDestCRS( destCRS );

  mEllipsoid = ellipsoid;

  // precalculate some values for area calculations
  computeAreaInit();

  return true;
}