Exemple #1
0
//---------------------------------------------------------
bool CSG_Vector::Assign(const CSG_Vector &Vector)
{
	if( Create(Vector.Get_N()) )
	{
		memcpy(Get_Data(), Vector.Get_Data(), Get_N() * sizeof(double));

		return( true );
	}

	return( false );
}
Exemple #2
0
//---------------------------------------------------------
bool CSG_Vector::Subtract(const CSG_Vector &Vector)
{
	if( Get_N() == Vector.Get_N() && Get_N() > 0 )
	{
		for(int i=0; i<Get_N(); i++)
		{
			Get_Data()[i]	-= Vector.Get_Data()[i];
		}

		return( true );
	}

	return( false );
}
Exemple #3
0
//---------------------------------------------------------
bool CSG_Vector::is_Equal(const CSG_Vector &Vector) const
{
	if( Get_N() == Vector.Get_N() )
	{
		for(int i=0; i<Get_N(); i++)
		{
			if( Get_Data(i) != Vector.Get_Data(i) )
			{
				return( false );
			}
		}

		return( true );
	}

	return( false );
}
Exemple #4
0
//---------------------------------------------------------
bool		SG_Matrix_Solve(CSG_Matrix &Matrix, CSG_Vector &Vector, bool bSilent)
{
	bool	bResult	= false;
	int		n		= Vector.Get_N();

	if( n > 0 && n == Matrix.Get_NX() && n == Matrix.Get_NY() )
	{
		int	*Permutation	= (int *)SG_Malloc(n * sizeof(int));

		if( SG_Matrix_LU_Decomposition(n, Permutation, Matrix.Get_Data(), bSilent) )
		{
			SG_Matrix_LU_Solve(n, Permutation, Matrix, Vector.Get_Data(), bSilent);

			bResult	= true;
		}

		SG_Free(Permutation);
	}

	return( bResult );
}
Exemple #5
0
bool CSG_Matrix::Ins_Row(int iRow, const CSG_Vector &Data)
{
	return( m_ny == 0 ? Add_Row(Data) : m_nx == Data.Get_N() ? Ins_Row(iRow, Data.Get_Data()) : false );
}
Exemple #6
0
bool CSG_Matrix::Ins_Col(int iCol, const CSG_Vector &Data)
{
	return( m_nx == 0 ? Add_Col(Data) : m_ny == Data.Get_N() ? Ins_Col(iCol, Data.Get_Data()) : false );
}
Exemple #7
0
bool CSG_Matrix::Add_Row(const CSG_Vector &Data)
{
	return( m_ny == 0 ? Create(Data.Get_N(), 1, Data.Get_Data()) : m_nx == Data.Get_N() ? Add_Row(Data.Get_Data()) : false );
}
Exemple #8
0
bool CSG_Matrix::Set_Row(int iRow, const CSG_Vector &Data)
{
	return( m_nx == Data.Get_N() ? Set_Row(iRow, Data.Get_Data()) : false );
}
Exemple #9
0
bool CSG_Matrix::Set_Col(int iCol, const CSG_Vector &Data)
{
	return( m_ny == Data.Get_N() ? Set_Col(iCol, Data.Get_Data()) : false );
}
Exemple #10
0
//---------------------------------------------------------
bool CParam_Scale::On_Execute(void)
{
	//-----------------------------------------------------
	bool		bConstrain;
	int			Index[6];
	double		zScale, Tol_Slope, Tol_Curve;
	CSG_Matrix	Normal;

	//-----------------------------------------------------
	bConstrain	= Parameters("CONSTRAIN")->asBool();
	zScale		= Parameters("ZSCALE"   )->asDouble();	if( zScale <= 0.0 )	{	zScale	= 1.0;	}
	Tol_Slope	= Parameters("TOL_SLOPE")->asDouble();
	Tol_Curve	= Parameters("TOL_CURVE")->asDouble();

	m_pDEM		= Parameters("DEM"      )->asGrid();

	//-----------------------------------------------------
	CSG_Grid	*pFeature	= Parameters("FEATURES" )->asGrid();
	CSG_Grid	*pElevation	= Parameters("ELEVATION")->asGrid();
	CSG_Grid	*pSlope		= Parameters("SLOPE"    )->asGrid();
	CSG_Grid	*pAspect	= Parameters("ASPECT"   )->asGrid();
	CSG_Grid	*pProfC		= Parameters("PROFC"    )->asGrid();
	CSG_Grid	*pPlanC		= Parameters("PLANC"    )->asGrid();
	CSG_Grid	*pLongC		= Parameters("LONGC"    )->asGrid();
	CSG_Grid	*pCrosC		= Parameters("CROSC"    )->asGrid();
	CSG_Grid	*pMiniC		= Parameters("MINIC"    )->asGrid();
	CSG_Grid	*pMaxiC		= Parameters("MAXIC"    )->asGrid();

	//-----------------------------------------------------
	if( !Get_Weights() )
	{
		return( false );
	}

	if( !Get_Normal(Normal) )
	{
		return( false );
	}

	// To constrain the quadtratic through the central cell, ignore the calculations involving the
	// coefficient f. Since these are all in the last row and column of the matrix, simply redimension.
	if( !SG_Matrix_LU_Decomposition(bConstrain ? 5 : 6, Index, Normal.Get_Data()) )
	{
		return( false );
	}

	//-----------------------------------------------------
	for(int y=0; y<Get_NY() && Set_Progress(y); y++)
	{
		#pragma omp parallel for
		for(int x=0; x<Get_NX(); x++)
		{
			CSG_Vector	Observed;

			double	elevation, slope, aspect, profc, planc, longc, crosc, minic, maxic;

			if( Get_Observed(x, y, Observed, bConstrain)
			&&  SG_Matrix_LU_Solve(bConstrain ? 5 : 6, Index, Normal, Observed.Get_Data()) )
			{
				Get_Parameters(zScale, Observed.Get_Data(), elevation, slope, aspect, profc, planc, longc, crosc, minic, maxic);

				GRID_SET_VALUE(pFeature  , Get_Feature(slope, minic, maxic, crosc, Tol_Slope, Tol_Curve));
				GRID_SET_VALUE(pElevation, elevation + m_pDEM->asDouble(x, y));	// Add central elevation back
				GRID_SET_VALUE(pSlope    , slope);
				GRID_SET_VALUE(pAspect   , aspect);
				GRID_SET_VALUE(pProfC    , profc);
				GRID_SET_VALUE(pPlanC    , planc);
				GRID_SET_VALUE(pLongC    , longc);
				GRID_SET_VALUE(pCrosC    , crosc);
				GRID_SET_VALUE(pMiniC    , minic);
				GRID_SET_VALUE(pMaxiC    , maxic);
			}
			else
			{
				GRID_SET_NODATA(pFeature);
				GRID_SET_NODATA(pElevation);
				GRID_SET_NODATA(pSlope);
				GRID_SET_NODATA(pAspect);
				GRID_SET_NODATA(pProfC);
				GRID_SET_NODATA(pPlanC);
				GRID_SET_NODATA(pLongC);
				GRID_SET_NODATA(pCrosC);
				GRID_SET_NODATA(pMiniC);
				GRID_SET_NODATA(pMaxiC);
			}
		}
	}

	//-----------------------------------------------------
	CSG_Parameter	*pLUT	= DataObject_Get_Parameter(pFeature, "LUT");

	if( pLUT && pLUT->asTable() )
	{
		pLUT->asTable()->Del_Records();

		LUT_SET_CLASS(FLAT   , _TL("Planar"       ), SG_GET_RGB(180, 180, 180));
		LUT_SET_CLASS(PIT    , _TL("Pit"          ), SG_GET_RGB(  0,   0,   0));
		LUT_SET_CLASS(CHANNEL, _TL("Channel"      ), SG_GET_RGB(  0,   0, 255));
		LUT_SET_CLASS(PASS   , _TL("Pass (saddle)"), SG_GET_RGB(  0, 255,   0));
		LUT_SET_CLASS(RIDGE  , _TL("Ridge"        ), SG_GET_RGB(255, 255,   0));
		LUT_SET_CLASS(PEAK   , _TL("Peak"         ), SG_GET_RGB(255,   0,   0));

		DataObject_Set_Parameter(pFeature, pLUT);

		DataObject_Set_Parameter(pFeature, "COLORS_TYPE", 1);	// Color Classification Type: Lookup Table
	}

	//-----------------------------------------------------
	DataObject_Set_Colors(pSlope , 11, SG_COLORS_YELLOW_RED);
	DataObject_Set_Colors(pAspect, 11, SG_COLORS_ASPECT_3);
	DataObject_Set_Colors(pProfC , 11, SG_COLORS_RED_GREY_BLUE, true);
	DataObject_Set_Colors(pPlanC , 11, SG_COLORS_RED_GREY_BLUE, false);
	DataObject_Set_Colors(pLongC , 11, SG_COLORS_RED_GREY_BLUE, true);
	DataObject_Set_Colors(pCrosC , 11, SG_COLORS_RED_GREY_BLUE, true);
	DataObject_Set_Colors(pMiniC , 11, SG_COLORS_RED_GREY_BLUE, true);
	DataObject_Set_Colors(pMaxiC , 11, SG_COLORS_RED_GREY_BLUE, true);

	//-----------------------------------------------------
	return( true );
}