org.osgeo.grass.r3.r3__gwflow Maven / Gradle / Ivy
package org.osgeo.grass.r3;
import org.jgrasstools.grass.utils.ModuleSupporter;
import oms3.annotations.Author;
import oms3.annotations.Documentation;
import oms3.annotations.Label;
import oms3.annotations.Description;
import oms3.annotations.Execute;
import oms3.annotations.In;
import oms3.annotations.UI;
import oms3.annotations.Keywords;
import oms3.annotations.License;
import oms3.annotations.Name;
import oms3.annotations.Out;
import oms3.annotations.Status;
@Description("Numerical calculation program for transient, confined groundwater flow in three dimensions")
@Author(name = "Grass Developers Community", contact = "http://grass.osgeo.org")
@Keywords("raster3d, voxel")
@Label("Grass/Raster 3D Modules")
@Name("r3__gwflow")
@Status(Status.CERTIFIED)
@License("General Public License Version >=2)")
public class r3__gwflow {
@UI("infile,grassfile")
@Description("The initial piezometric head in [m]")
@In
public String $$pheadPARAMETER;
@UI("infile,grassfile")
@Description("The status for each cell, = 0 - inactive, 1 - active, 2 - dirichlet")
@In
public String $$statusPARAMETER;
@UI("infile,grassfile")
@Description("The x-part of the hydraulic conductivity tensor in [m/s]")
@In
public String $$hc_xPARAMETER;
@UI("infile,grassfile")
@Description("The y-part of the hydraulic conductivity tensor in [m/s]")
@In
public String $$hc_yPARAMETER;
@UI("infile,grassfile")
@Description("The z-part of the hydraulic conductivity tensor in [m/s]")
@In
public String $$hc_zPARAMETER;
@UI("infile,grassfile")
@Description("Sources and sinks in [m^3/s] (optional)")
@In
public String $$qPARAMETER;
@UI("infile,grassfile")
@Description("Specific yield in 1/m")
@In
public String $$sPARAMETER;
@UI("infile,grassfile")
@Description("Recharge raster map in m^3/s (optional)")
@In
public String $$rPARAMETER;
@UI("outfile,grassfile")
@Description("The piezometric head result of the numerical calculation will be written to this map")
@In
public String $$outputPARAMETER;
@UI("outfile,grassfile")
@Description("Calculate the groundwater distance velocity vector field and write the x, y, and z components to maps named name_[xyz]. Name is basename for the new raster3d maps (optional)")
@In
public String $$velocityPARAMETER;
@Description("The calculation time in seconds")
@In
public String $$dtPARAMETER = "86400";
@Description("Maximum number of iteration used to solver the linear equation system (optional)")
@In
public String $$maxitPARAMETER = "100000";
@Description("Error break criteria for iterative solvers (jacobi, sor, cg or bicgstab) (optional)")
@In
public String $$errorPARAMETER = "0.0000000001";
@Description("The type of solver which should solve the symmetric linear equation system (optional)")
@In
public String $$solverPARAMETER = "cg";
@Description("The relaxation parameter used by the jacobi and sor solver for speedup or stabilizing (optional)")
@In
public String $$relaxPARAMETER = "1";
@Description("Use G3D mask (if exists)")
@In
public boolean $$mFLAG = false;
@Description("Use a sparse linear equation system, only available with iterative solvers")
@In
public boolean $$sFLAG = false;
@Description("Allow output files to overwrite existing files")
@In
public boolean $$overwriteFLAG = false;
@Description("Verbose module output")
@In
public boolean $$verboseFLAG = false;
@Description("Quiet module output")
@In
public boolean $$quietFLAG = false;
@Execute
public void process() throws Exception {
ModuleSupporter.processModule(this);
}
}
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