/*
* Copyright (C) 2013 Dr. John Lindsay <jlindsay@uoguelph.ca>
*
* 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 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package plugins;
import java.util.Date;
import whitebox.geospatialfiles.WhiteboxRaster;
import whitebox.interfaces.WhiteboxPlugin;
import whitebox.interfaces.WhiteboxPluginHost;
/**
* This tool can be used to perform a mass flux calculation using DEM-based surface flow-routing techniques.
* @author Dr. John Lindsay email: jlindsay@uoguelph.ca
*/
public class MassFluxDinf implements WhiteboxPlugin {
private WhiteboxPluginHost myHost = null;
private String[] args;
WhiteboxRaster pointer;
WhiteboxRaster efficiency;
WhiteboxRaster absorption;
WhiteboxRaster output;
WhiteboxRaster tmpGrid;
double noData = -32768;
int[] dX = new int[]{1, 1, 1, 0, -1, -1, -1, 0};
int[] dY = new int[]{-1, 0, 1, 1, 1, 0, -1, -1};
double gridRes = 1;
double[] startFD = new double[]{180, 225, 270, 315, 0, 45, 90, 135};
double[] endFD = new double[]{270, 315, 360, 45, 90, 135, 180, 225};
double efficiencyMultiplier;
/**
* Used to retrieve the plugin tool's name. This is a short, unique name containing no spaces.
* @return String containing plugin name.
*/
@Override
public String getName() {
return "MassFluxDinf";
}
/**
* Used to retrieve the plugin tool's descriptive name. This can be a longer name (containing spaces) and is used in the interface to list the tool.
* @return String containing the plugin descriptive name.
*/
@Override
public String getDescriptiveName() {
return "D-infinity Mass Flux";
}
/**
* Used to retrieve a short description of what the plugin tool does.
* @return String containing the plugin's description.
*/
@Override
public String getToolDescription() {
return "Performs a D-infinity mass flux calculation";
}
/**
* Used to identify which toolboxes this plugin tool should be listed in.
* @return Array of Strings.
*/
@Override
public String[] getToolbox() {
String[] ret = { "MassFlux" };
return ret;
}
/**
* Sets the WhiteboxPluginHost to which the plugin tool is tied. This is the class
* that the plugin will send all feedback messages, progress updates, and return objects.
* @param host The WhiteboxPluginHost that called the plugin tool.
*/
@Override
public void setPluginHost(WhiteboxPluginHost host) {
myHost = host;
}
/**
* Used to communicate feedback pop-up messages between a plugin tool and the main Whitebox user-interface.
* @param feedback String containing the text to display.
*/
private void showFeedback(String message) {
if (myHost != null) {
myHost.showFeedback(message);
} else {
System.out.println(message);
}
}
/**
* Used to communicate a return object from a plugin tool to the main Whitebox user-interface.
* @return Object, such as an output WhiteboxRaster.
*/
private void returnData(Object ret) {
if (myHost != null) {
myHost.returnData(ret);
}
}
private int previousProgress = 0;
private String previousProgressLabel = "";
/**
* Used to communicate a progress update between a plugin tool and the main Whitebox user interface.
* @param progressLabel A String to use for the progress label.
* @param progress Float containing the progress value (between 0 and 100).
*/
private void updateProgress(String progressLabel, int progress) {
if (myHost != null && ((progress != previousProgress) ||
(!progressLabel.equals(previousProgressLabel)))) {
myHost.updateProgress(progressLabel, progress);
}
previousProgress = progress;
previousProgressLabel = progressLabel;
}
/**
* Used to communicate a progress update between a plugin tool and the main Whitebox user interface.
* @param progress Float containing the progress value (between 0 and 100).
*/
private void updateProgress(int progress) {
if (myHost != null && progress != previousProgress) {
myHost.updateProgress(progress);
}
previousProgress = progress;
}
/**
* Sets the arguments (parameters) used by the plugin.
* @param args An array of string arguments.
*/
@Override
public void setArgs(String[] args) {
this.args = args.clone();
}
private boolean cancelOp = false;
/**
* Used to communicate a cancel operation from the Whitebox GUI.
* @param cancel Set to true if the plugin should be canceled.
*/
@Override
public void setCancelOp(boolean cancel) {
cancelOp = cancel;
}
private void cancelOperation() {
showFeedback("Operation cancelled.");
updateProgress("Progress: ", 0);
}
private boolean amIActive = false;
/**
* Used by the Whitebox GUI to tell if this plugin is still running.
* @return a boolean describing whether or not the plugin is actively being used.
*/
@Override
public boolean isActive() {
return amIActive;
}
/**
* Used to execute this plugin tool.
*/
@Override
public void run() {
amIActive = true;
String pointerHeader, loadingHeader, efficiencyHeader, absorptionHeader, outputHeader;
int row, col, x, y;
float progress = 0;
double slope;
double z, z2;
int i, c;
double numInNeighbours;
boolean flag = false;
double flowDir;
efficiencyMultiplier = 1d;
if (args.length <= 0) {
showFeedback("Plugin parameters have not been set.");
return;
}
pointerHeader = args[0];
loadingHeader = args[1];
efficiencyHeader = args[2];
absorptionHeader = args[3];
outputHeader = args[4];
// check to see that the inputHeader and outputHeader are not null.
if (pointerHeader.isEmpty() || outputHeader.isEmpty() || loadingHeader.isEmpty() ||
efficiencyHeader.isEmpty() || absorptionHeader.isEmpty()) {
showFeedback("One or more of the input parameters have not been set properly.");
return;
}
try {
pointer = new WhiteboxRaster(pointerHeader, "r");
int rows = pointer.getNumberRows();
int cols = pointer.getNumberColumns();
noData = pointer.getNoDataValue();
gridRes = pointer.getCellSizeX();
WhiteboxRaster loading = new WhiteboxRaster(loadingHeader, "r");
if (loading.getNumberRows() != rows || loading.getNumberColumns() != cols) {
showFeedback("Each of the input images must have the same dimensions.");
return;
}
double noDataLoading = loading.getNoDataValue();
efficiency = new WhiteboxRaster(efficiencyHeader, "r");
if (efficiency.getNumberRows() != rows || efficiency.getNumberColumns() != cols) {
showFeedback("Each of the input images must have the same dimensions.");
return;
}
double noDataEfficiency = efficiency.getNoDataValue();
if (efficiency.getMaximumValue() > 1) {
efficiencyMultiplier = 0.01;
}
absorption = new WhiteboxRaster(absorptionHeader, "r");
if (absorption.getNumberRows() != rows || absorption.getNumberColumns() != cols) {
showFeedback("Each of the input images must have the same dimensions.");
return;
}
double noDataAbsorption = absorption.getNoDataValue();
double outputNoData = -32768.0;
output = new WhiteboxRaster(outputHeader, "rw",
pointerHeader, WhiteboxRaster.DataType.FLOAT, 0);
output.setPreferredPalette("blueyellow.pal");
output.setDataScale(WhiteboxRaster.DataScale.CONTINUOUS);
output.setZUnits("dimensionless");
tmpGrid = new WhiteboxRaster(outputHeader.replace(".dep",
"_temp.dep"), "rw", pointerHeader, WhiteboxRaster.DataType.FLOAT, outputNoData);
tmpGrid.isTemporaryFile = true;
// Calculate the number of inflowing neighbours to each cell.
updateProgress("Loop 1 of 2:", 0);
for (row = 0; row < rows; row++) {
for (col = 0; col < cols; col++) {
flowDir = pointer.getValue(row, col);
if (flowDir != noData &&
loading.getValue(row, col) != noDataLoading &&
efficiency.getValue(row, col) != noDataEfficiency &&
absorption.getValue(row, col) != noDataAbsorption) {
i = 0;
for (c = 0; c < 8; c++) {
x = col + dX[c];
y = row + dY[c];
flowDir = pointer.getValue(y, x);
if (flowDir >= 0 && flowDir <= 360) {
if (c != 3) {
if (flowDir > startFD[c] && flowDir < endFD[c]) { i++; }
} else {
if (flowDir > startFD[c] || flowDir < endFD[c]) { i++; }
}
}
}
tmpGrid.setValue(row, col, i);
output.setValue(row, col, loading.getValue(row, col));
} else {
output.setValue(row, col, outputNoData);
}
}
if (cancelOp) {
cancelOperation();
return;
}
progress = (float) (100f * row / (rows - 1));
updateProgress("Loop 1 of 2:", (int) progress);
}
loading.close();
updateProgress("Loop 2 of 2:", 0);
for (row = 0; row < rows; row++) {
for (col = 0; col < cols; col++) {
if (tmpGrid.getValue(row, col) == 0) { //there are no
//remaining inflowing neighbours, send its current
//flow accum val downslope
DinfAccum(row, col);
}
}
if (cancelOp) {
cancelOperation();
return;
}
progress = (float) (100f * row / (rows - 1));
updateProgress("Loop 2 of 2:", (int) progress);
}
output.addMetadataEntry("Created by the "
+ getDescriptiveName() + " tool.");
output.addMetadataEntry("Created on " + new Date());
pointer.close();
efficiency.close();
absorption.close();
tmpGrid.close();
output.close();
// returning a header file string displays the image.
returnData(outputHeader);
} catch (OutOfMemoryError oe) {
myHost.showFeedback("An out-of-memory error has occurred during operation.");
} catch (Exception e) {
myHost.showFeedback("An error has occurred during operation. See log file for details.");
myHost.logException("Error in " + getDescriptiveName(), e);
} finally {
updateProgress("Progress: ", 0);
// tells the main application that this process is completed.
amIActive = false;
myHost.pluginComplete();
}
}
private void DinfAccum(int row, int col) {
double eff = efficiency.getValue(row, col) * efficiencyMultiplier;
double absorp = absorption.getValue(row, col);
double flowAccumVal = (output.getValue(row, col) - absorp) * eff;
double flowDir = pointer.getValue(row, col);
double proportion1 = 0;
double proportion2 = 0;
int a1 = 0;
int b1 = 0;
int a2 = 0;
int b2 = 0;
tmpGrid.setValue(row, col, -1); // 'this ensures that you don't process this cell a second time.
if (flowDir >= 0) {
// find which two cells receive flow and the proportion to each
if (flowDir >= 0 && flowDir < 45) {
proportion1 = (45 - flowDir) / 45;
a1 = col;
b1 = row - 1;
proportion2 = flowDir / 45;
a2 = col + 1;
b2 = row - 1;
} else if (flowDir >= 45 && flowDir < 90) {
proportion1 = (90 - flowDir) / 45;
a1 = col + 1;
b1 = row - 1;
proportion2 = (flowDir - 45) / 45;
a2 = col + 1;
b2 = row;
} else if (flowDir >= 90 && flowDir < 135) {
proportion1 = (135 - flowDir) / 45;
a1 = col + 1;
b1 = row;
proportion2 = (flowDir - 90) / 45;
a2 = col + 1;
b2 = row + 1;
} else if (flowDir >= 135 && flowDir < 180) {
proportion1 = (180 - flowDir) / 45;
a1 = col + 1;
b1 = row + 1;
proportion2 = (flowDir - 135) / 45;
a2 = col;
b2 = row + 1;
} else if (flowDir >= 180 && flowDir < 225) {
proportion1 = (225 - flowDir) / 45;
a1 = col;
b1 = row + 1;
proportion2 = (flowDir - 180) / 45;
a2 = col - 1;
b2 = row + 1;
} else if (flowDir >= 225 && flowDir < 270) {
proportion1 = (270 - flowDir) / 45;
a1 = col - 1;
b1 = row + 1;
proportion2 = (flowDir - 225) / 45;
a2 = col - 1;
b2 = row;
} else if (flowDir >= 270 && flowDir < 315) {
proportion1 = (315 - flowDir) / 45;
a1 = col - 1;
b1 = row;
proportion2 = (flowDir - 270) / 45;
a2 = col - 1;
b2 = row - 1;
} else if (flowDir >= 315 && flowDir <= 360) {
proportion1 = (360 - flowDir) / 45;
a1 = col - 1;
b1 = row - 1;
proportion2 = (flowDir - 315) / 45;
a2 = col;
b2 = row - 1;
}
if (proportion1 > 0 && output.getValue(b1, a1) != noData) {
output.setValue(b1, a1, output.getValue(b1, a1) + flowAccumVal * proportion1);
tmpGrid.setValue(b1, a1, tmpGrid.getValue(b1, a1) - 1);
if (tmpGrid.getValue(b1, a1) == 0) {
DinfAccum(b1, a1);
}
}
if (proportion2 > 0 && output.getValue(b2, a2) != noData) {
output.setValue(b2, a2, output.getValue(b2, a2) + flowAccumVal * proportion2);
tmpGrid.setValue(b2, a2, tmpGrid.getValue(b2, a2) - 1);
if (tmpGrid.getValue(b2, a2) == 0) {
DinfAccum(b2, a2);
}
}
}
}
}