コード例 #1
0
//---------------------------------------------------------
bool CGrid_Histogram_Surface::Get_Lines(bool bRows)
{
	int			i, j, n_i, n_j;
	CSG_Table	Values;
	CSG_Grid	*pHist;

	//-----------------------------------------------------
	Parameters("HIST")->Set_Value(pHist	= SG_Create_Grid(m_pGrid));

	pHist->Set_NoData_Value_Range(
		m_pGrid->Get_NoData_Value(),
		m_pGrid->Get_NoData_hiValue()
	);

	n_i	= bRows ? Get_NX() : Get_NY();
	n_j	= bRows ? Get_NY() : Get_NX();

	Values.Add_Field(SG_T("Z"), SG_DATATYPE_Double);

	for(i=0; i<n_i; i++)
	{
		Values.Add_Record();
	}

	//-----------------------------------------------------
	for(j=0; j<n_j && Set_Progress(j, n_j); j++)
	{
		for(i=0; i<n_i; i++)
		{
			Values.Get_Record(i)->Set_Value(0, bRows ? m_pGrid->asDouble(i, j) : m_pGrid->asDouble(j, i));
		}

		Values.Set_Index(0, TABLE_INDEX_Ascending);

		for(i=0; i<n_i; i++)
		{
			int		k	= i % 2 ? i / 2 : n_i - 1 - i / 2;

			if( bRows )
			{
				pHist->Set_Value(k, j, Values.Get_Record_byIndex(i)->asDouble(0));
			}
			else
			{
				pHist->Set_Value(j, k, Values.Get_Record_byIndex(i)->asDouble(0));
			}
		}
	}

	//-----------------------------------------------------
	return( true );
}
コード例 #2
0
bool CInvertNoData::On_Execute(void){
	
	int x,y;
	
	CSG_Grid* pInput = Parameters("INPUT")->asGrid(); 
	CSG_Grid* pOutput = Parameters("OUTPUT")->asGrid(); 
	pOutput->Set_NoData_Value_Range(-9999,0);
				
	for(y=0; y<Get_NY() && Set_Progress(y); y++){		
		for(x=0; x<Get_NX(); x++){
			if (pInput->is_NoData(x,y)){
				pOutput->Set_Value(x, y, 1.0);
			}//if
			else{
				pOutput->Set_Value(x, y, -9999.0);
			}//else
		}//if
	}//for

	return true;

}//method
コード例 #3
0
//---------------------------------------------------------
bool CGrid_Histogram_Surface::Get_Circle(void)
{
	long		i;
	int			n;
	double		r;
	CSG_Grid	*pHist;

	r	= sqrt(m_pGrid->Get_NCells() / M_PI);
	n	= 1 + (int)(2.0 * r);

	//-----------------------------------------------------
	Parameters("HIST")->Set_Value(pHist	= SG_Create_Grid(m_pGrid->Get_Type(), n, n, m_pGrid->Get_Cellsize(), -r * m_pGrid->Get_Cellsize(), -r * m_pGrid->Get_Cellsize()));

	pHist->Set_NoData_Value_Range(
		m_pGrid->Get_NoData_Value(),
		m_pGrid->Get_NoData_hiValue()
	);

	//-----------------------------------------------------
	for(int y=0; y<n && Set_Progress(y, n); y++)
	{
		for(int x=0; x<n; x++)
		{
			double	d	= SG_Get_Distance(x, y, r, r);

			if( d < r && m_pGrid->Get_Sorted((long)(d*d*M_PI), i) )
			{
				pHist->Set_Value(x, y, m_pGrid->asDouble(i));
			}
			else
			{
				pHist->Set_NoData(x, y);
			}
		}
	}

	//-----------------------------------------------------
	return( true );
}
コード例 #4
0
//---------------------------------------------------------
bool CSet_Grid_Georeference::On_Execute(void)
{
	//-----------------------------------------------------
	CSG_Parameter_Grid_List	*pGrids	= Parameters("GRIDS")->asGridList();

	if( pGrids->Get_Count() <= 0 )
	{
		return( false );
	}

	//-----------------------------------------------------
	double	xMin, yMin, size;

	switch( Parameters("DEFINITION")->asInt() )
	{
	case 0:	// cellsize and lower left center coordinates
		size	= Parameters("SIZE")->asDouble();
		xMin	= Parameters("XMIN")->asDouble();
		yMin	= Parameters("YMIN")->asDouble();
		break;

	case 1:	// cellsize and lower left corner coordinates
		size	= Parameters("SIZE")->asDouble();
		xMin	= Parameters("XMIN")->asDouble() + size * 0.5;
		yMin	= Parameters("YMIN")->asDouble() + size * 0.5;
		break;

	case 2:	// cellsize and upper left center coordinates
		size	= Parameters("SIZE")->asDouble();
		xMin	= Parameters("XMIN")->asDouble();
		yMin	= Parameters("YMAX")->asDouble() - size * Get_NY();
		break;

	case 3:	// cellsize and upper left corner coordinates
		size	= Parameters("SIZE")->asDouble();
		xMin	= Parameters("XMIN")->asDouble() + size * 0.5;
		yMin	= Parameters("YMAX")->asDouble() - size * (0.5 + Get_NY());
		break;

	case 4:	// lower left and upper right center coordinates
		size	= (Parameters("XMAX")->asDouble() - Parameters("XMIN")->asDouble()) / Get_NX();
		xMin	= Parameters("XMIN")->asDouble();
		yMin	= Parameters("YMIN")->asDouble();
		break;

	case 5:	// lower left and upper right corner coordinates
		size	= (Parameters("XMAX")->asDouble() - Parameters("XMIN")->asDouble()) / (Get_NX() + 1);
		xMin	= Parameters("XMIN")->asDouble() + size * 0.5;
		yMin	= Parameters("YMIN")->asDouble() + size * 0.5;
		break;
	}

	//-----------------------------------------------------
	CSG_Grid_System	System;

	if( !System.Assign(size, xMin, yMin, Get_NX(), Get_NY()) )
	{
		return( false );
	}

	//-----------------------------------------------------
	Parameters("REFERENCED")->asGridList()->Del_Items();

	for(int i=0; i<pGrids->Get_Count() && Process_Get_Okay(); i++)
	{
		CSG_Grid	*pGrid	= pGrids->asGrid(i);
		CSG_Grid	*pReferenced	= SG_Create_Grid(System, pGrid->Get_Type());

		pReferenced->Set_Name(pGrid->Get_Name());
		pReferenced->Set_Unit(pGrid->Get_Unit());
		pReferenced->Set_Scaling(pGrid->Get_Scaling(), pGrid->Get_Offset());
		pReferenced->Set_NoData_Value_Range(pGrid->Get_NoData_Value(), pGrid->Get_NoData_hiValue());
		pReferenced->Get_MetaData  ()	= pGrid->Get_MetaData  ();
		pReferenced->Get_Projection()	= pGrid->Get_Projection();

		for(int y=0; y<Get_NY() && Set_Progress(y); y++)
		{
			#pragma omp parallel for
			for(int x=0; x<Get_NX(); x++)
			{
				pReferenced->Set_Value(x, y, pGrid->asDouble(x, y));
			}
		}

		Parameters("REFERENCED")->asGridList()->Add_Item(pReferenced);
	}

	//-----------------------------------------------------
	return( true );
}
コード例 #5
0
//---------------------------------------------------------
bool CCRS_Transform_Grid::Transform(CSG_Parameter_Grid_List *pSources, CSG_Parameter_Grid_List *pTargets, const CSG_Grid_System &Target_System)
{
	if( !m_Projector.Set_Inverse(true) || !pTargets || !pSources || pSources->Get_Count() < 1 )
	{
		return( false );
	}

	//-----------------------------------------------------
	CSG_Grid	*pX, *pY;

	if( !Parameters("CREATE_XY")->asBool() )
	{
		pX	= pY	= NULL;
	}
	else
	{
		Parameters("OUT_X")->Set_Value(pX	= SG_Create_Grid(Target_System, SG_DATATYPE_Float));
		pX->Assign_NoData();
		pX->Set_Name(_TL("X-Coordinate"));
		pX->Get_Projection().Create(m_Projector.Get_Target());

		Parameters("OUT_Y")->Set_Value(pY	= SG_Create_Grid(Target_System, SG_DATATYPE_Float));
		pY->Assign_NoData();
		pY->Set_Name(_TL("Y-Coordinate"));
		pY->Get_Projection().Create(m_Projector.Get_Target());
	}

	//-----------------------------------------------------
	bool	bGeogCS_Adjust	= m_Projector.Get_Source().Get_Type() == SG_PROJ_TYPE_CS_Geographic && pSources->asGrid(0)->Get_System().Get_XMax() > 180.0;

	Set_Target_Area(pSources->asGrid(0)->Get_System(), Target_System);

	//-----------------------------------------------------
	int	i, n	= pTargets->Get_Count();

	for(i=0; i<pSources->Get_Count(); i++)
	{
		CSG_Grid	*pSource	= pSources->asGrid(i);
		CSG_Grid	*pTarget	= SG_Create_Grid(Target_System, m_Interpolation == 0 ? pSource->Get_Type() : SG_DATATYPE_Float);

		if( pTarget )
		{
			pTarget->Set_NoData_Value_Range	(pSource->Get_NoData_Value(), pSource->Get_NoData_hiValue());
			pTarget->Set_ZFactor			(pSource->Get_ZFactor());
			pTarget->Set_Name				(CSG_String::Format(SG_T("%s"), pSource->Get_Name()));
			pTarget->Set_Unit				(pSource->Get_Unit());
			pTarget->Assign_NoData();
			pTarget->Get_Projection().Create(m_Projector.Get_Target());

			pTargets->Add_Item(pTarget);
		}
	}

	//-------------------------------------------------
	for(int y=0; y<Target_System.Get_NY() && Set_Progress(y, Target_System.Get_NY()); y++)
	{
		double	yTarget	= Target_System.Get_YMin() + y * Target_System.Get_Cellsize();

		#pragma omp parallel for private(i)
		for(int x=0; x<Target_System.Get_NX(); x++)
		{
			double	z, ySource, xSource	= Target_System.Get_XMin() + x * Target_System.Get_Cellsize();

			if( is_In_Target_Area(x, y) && m_Projector.Get_Projection(xSource, ySource = yTarget) )
			{
				if( pX )	pX->Set_Value(x, y, xSource);
				if( pY )	pY->Set_Value(x, y, ySource);

				if( bGeogCS_Adjust && xSource < 0.0 )
				{
					xSource	+= 360.0;
				}

				for(i=0; i<pTargets->Get_Count(); i++)
				{
					if( pSources->asGrid(i)->Get_Value(xSource, ySource, z, m_Interpolation) )
					{
						pTargets->asGrid(n + i)->Set_Value(x, y, z);
					}
				}
			}
		}
	}

	//-----------------------------------------------------
	m_Target_Area.Destroy();

	return( true );
}
コード例 #6
0
//---------------------------------------------------------
bool CGCS_Grid_Longitude_Range::On_Execute(void)
{
	CSG_Parameter_Grid_List	*pInput		= Parameters("INPUT" )->asGridList();
	CSG_Parameter_Grid_List	*pOutput	= Parameters("OUTPUT")->asGridList();

	if( pInput->Get_Count() <= 0 )
	{
		Message_Dlg(_TL("nothing to do: no data in selection"));

		return( false );
	}

	pOutput->Del_Items();

	//-----------------------------------------------------
	int				xZero;
	CSG_Grid_System	Target;

	//-----------------------------------------------------
	if( Parameters("DIRECTION")->asInt() == 0 )	// 0 - 360 >> -180 - 180
	{
		if( Get_XMax() <= 180.0 )
		{
			Message_Add(_TL("Nothing to do. Raster is already within target range."));

			return( true );
		}
		else if( Get_XMin() >= 180.0 )
		{
			xZero	= 0;

			Target.Assign(Get_Cellsize(), Get_XMin() - 360.0, Get_YMin(), Get_NX(), Get_NY());
		}
		else if( Get_XMax() - 360.0 < Get_XMin() - Get_Cellsize() )
		{
			Error_Set(_TL("Nothing to do be done. Raster splitting is not supported."));

			return( false );
		}
		else
		{
			xZero	= (int)(0.5 + 180.0 / Get_Cellsize());

			Target.Assign(Get_Cellsize(), Get_XMin() - 180.0, Get_YMin(), Get_NX(), Get_NY());
		}
	}

	//-----------------------------------------------------
	else										// -180 - 180 >> 0 - 360
	{
		if( Get_XMin() >= 0.0 )
		{
			Message_Add(_TL("Nothing to do. Raster is already within target range."));

			return( true );
		}
		else if( Get_XMax() <= 0.0 )
		{
			xZero	= 0;

			Target.Assign(Get_Cellsize(), Get_XMin() + 360.0, Get_YMin(), Get_NX(), Get_NY());
		}
		else if( Get_XMin() + 360.0 > Get_XMax() + Get_Cellsize() )
		{
			Error_Set(_TL("Nothing to do be done. Raster splitting is not supported."));

			return( false );
		}
		else
		{
			xZero	= (int)(0.5 + 180.0 / Get_Cellsize());

			Target.Assign(Get_Cellsize(), Get_XMin() - 180.0, Get_YMin(), Get_NX(), Get_NY());
		}
	}

	//-----------------------------------------------------
	for(int i=0; i<pInput->Get_Count() && Process_Get_Okay(); i++)
	{
		CSG_Grid	*pIn	= pInput->asGrid(i);
		CSG_Grid	*pOut	= SG_Create_Grid(Target, pIn->Get_Type());

		pOut->Set_Name(pIn->Get_Name());
		pOut->Set_NoData_Value_Range(pIn->Get_NoData_Value(), pIn->Get_NoData_hiValue());
		pOut->Set_ZFactor(pIn->Get_ZFactor());

		pOutput->Add_Item(pOut);

		for(int y=0; y<Get_NY() && Set_Progress(y); y++)
		{
			for(int x=0, xx=xZero; x<Get_NX(); x++, xx++)
			{
				if( xx >= Get_NX() )
				{
					xx	= 0;
				}

				pOut->Set_Value(xx, y, pIn->asDouble(x, y));
			}
		}
	}

	//-----------------------------------------------------
	return( true );
}
コード例 #7
0
//---------------------------------------------------------
CSG_Grid * CLandsat_Import::Get_Band(const CSG_String &File)
{
	CSG_Data_Manager	tmpMgr;

	if( !tmpMgr.Add(File) || !tmpMgr.Get_Grid_System(0) || !tmpMgr.Get_Grid_System(0)->Get(0) )
	{
		Error_Set(CSG_String::Format(SG_T("%s: %s"), _TL("could not load file"), File.c_str()));

		return( NULL );
	}

	tmpMgr.Get_Grid_System(0)->Get(0)->Set_NoData_Value(0);	// landsat 8 pretends to use a value of 65535 (2^16 - 1)

	CSG_Grid	*pBand	= NULL;

	//-----------------------------------------------------
	if( !tmpMgr.Get_Grid_System(0)->Get(0)->Get_Projection().is_Okay() )
	{
		// undefined coordinate system, nothing to do be done further...
	}

	//-----------------------------------------------------
	else if( Parameters("PROJECTION")->asInt() == 2 )	// Geographic Coordinates
	{
		pBand	= Get_Projection((CSG_Grid *)tmpMgr.Get_Grid_System(0)->Get(0), "+proj=longlat +ellps=WGS84 +datum=WGS84");
	}

	//-----------------------------------------------------
	else												// UTM
	{
		CSG_Grid	*pTmp	= (CSG_Grid *)tmpMgr.Get_Grid_System(0)->Get(0);

		CSG_String	Projection	= pTmp->Get_Projection().Get_Proj4();

		if( Projection.Find("+proj=utm") >= 0
		&&  (  (Projection.Find("+south") >= 0 && Parameters("PROJECTION")->asInt() == 0)
		    || (Projection.Find("+south") <  0 && Parameters("PROJECTION")->asInt() == 1))
		&&  (pBand = SG_Create_Grid(pTmp->Get_Type(), pTmp->Get_NX(), pTmp->Get_NY(), pTmp->Get_Cellsize(),
				pTmp->Get_XMin(), pTmp->Get_YMin() + (Parameters("PROJECTION")->asInt() == 1 ? 10000000 : -10000000)
			)) != NULL )
		{
			if( Parameters("PROJECTION")->asInt() == 1 )
				Projection.Append (" +south");
			else
				Projection.Replace(" +south", "");

			pBand->Get_Projection().Create(Projection, SG_PROJ_FMT_Proj4);

			pBand->Set_Name              (pTmp->Get_Name());
			pBand->Set_Description       (pTmp->Get_Description());
			pBand->Set_NoData_Value_Range(pTmp->Get_NoData_Value(), pTmp->Get_NoData_hiValue());
			pBand->Set_Scaling           (pTmp->Get_Scaling(), pTmp->Get_Offset());

			#pragma omp parallel for
			for(int y=0; y<pBand->Get_NY(); y++)
			{
				for(int x=0; x<pBand->Get_NX(); x++)
				{
					pBand->Set_Value(x, y, pTmp->asDouble(x, y));
				}
			}
		}
	}

	//-----------------------------------------------------
	if( !pBand )
	{
		pBand	= (CSG_Grid *)tmpMgr.Get_Grid_System(0)->Get(0);

		tmpMgr.Delete(tmpMgr.Get_Grid_System(0)->Get(0), true);	// make permanent, detach from temporary data manager
	}

	return( pBand );
}
コード例 #8
0
//---------------------------------------------------------
bool CCRS_Transform_Grid::Transform(CSG_Parameter_Grid_List *pSources, CSG_Parameter_Grid_List *pTargets, const CSG_Grid_System &Target_System)
{
	if( !m_Projector.Set_Inverse(true) || !pTargets || !pSources || pSources->Get_Count() < 1 )
	{
		return( false );
	}

	//-----------------------------------------------------
	CSG_Grid	*pX, *pY;

	if( (pX = m_Grid_Target.Get_Grid("OUT_X")) != NULL )
	{
		pX->Assign_NoData();
		pX->Set_Name(_TL("X Coordinates"));
		pX->Get_Projection().Create(m_Projector.Get_Target());
	}

	if( (pY = m_Grid_Target.Get_Grid("OUT_Y")) != NULL )
	{
		pY->Assign_NoData();
		pY->Set_Name(_TL("Y Coordinates"));
		pY->Get_Projection().Create(m_Projector.Get_Target());
	}

	//-----------------------------------------------------
	bool	bGeogCS_Adjust	= m_Projector.Get_Source().Get_Type() == SG_PROJ_TYPE_CS_Geographic && pSources->asGrid(0)->Get_System().Get_XMax() > 180.0;

	Set_Target_Area(pSources->asGrid(0)->Get_System(), Target_System);

	bool	bKeepType	= m_Resampling == GRID_RESAMPLING_NearestNeighbour || Parameters("KEEP_TYPE")->asBool();

	//-----------------------------------------------------
	int	i, n	= pTargets->Get_Count();

	for(i=0; i<pSources->Get_Count(); i++)
	{
		CSG_Grid	*pSource	= pSources->asGrid(i);
		CSG_Grid	*pTarget	= SG_Create_Grid(Target_System, bKeepType ? pSource->Get_Type() : SG_DATATYPE_Float);

		if( pTarget )
		{
			pTargets->Add_Item(pTarget);

			pTarget->Set_NoData_Value_Range (pSource->Get_NoData_Value(), pSource->Get_NoData_hiValue());
			pTarget->Set_Scaling            (pSource->Get_Scaling(), pSource->Get_Offset());
			pTarget->Set_Name               (pSource->Get_Name());
			pTarget->Set_Unit               (pSource->Get_Unit());
			pTarget->Get_Projection().Create(m_Projector.Get_Target());
			pTarget->Assign_NoData();

			CSG_Parameters Parms; if( DataObject_Get_Parameters(pSource, Parms) ) { DataObject_Add(pTarget); DataObject_Set_Parameters(pTarget, Parms); }
		}
	}

	//-------------------------------------------------
	for(int y=0; y<Target_System.Get_NY() && Set_Progress(y, Target_System.Get_NY()); y++)
	{
		double	yTarget	= Target_System.Get_YMin() + y * Target_System.Get_Cellsize();

	//	#pragma omp parallel for private(i)
		for(int x=0; x<Target_System.Get_NX(); x++)
		{
			double	z, ySource, xSource	= Target_System.Get_XMin() + x * Target_System.Get_Cellsize();

			if( is_In_Target_Area(x, y) && m_Projector.Get_Projection(xSource, ySource = yTarget) )
			{
				if( bGeogCS_Adjust )
				{
					if( xSource < 0.0 )
					{
						xSource	+= 360.0;
					}
					else if( xSource >= 360.0 )
					{
						xSource	-= 360.0;
					}
				}

				if( pX ) pX->Set_Value(x, y, xSource);
				if( pY ) pY->Set_Value(x, y, ySource);

				for(i=0; i<pSources->Get_Count(); i++)
				{
					if( pSources->asGrid(i)->Get_Value(xSource, ySource, z, m_Resampling, false, true) )
					{
						pTargets->asGrid(n + i)->Set_Value(x, y, z);
					}
				}
			}
		}
	}

	//-----------------------------------------------------
	m_Target_Area.Destroy();

	return( true );
}