NslServer.git - Gitblit

			@@ -4,36 +4,25 @@
			import com.alibaba.fastjson.JSON;
			import com.se.nsl.config.PropertiesConfig;
			import com.se.nsl.domain.dto.*;
			import com.se.nsl.domain.po.DataPo;
			import com.se.nsl.domain.po.PondingPo;
			import com.se.nsl.domain.po.SimuData;
			import com.se.nsl.domain.vo.BuildingDepthVo;
			import com.se.nsl.helper.ComHelper;
			import com.se.nsl.helper.GdalHelper;
			import com.se.nsl.helper.ShpHelper;
			import com.se.nsl.utils.TimeFormatUtil;
			import lombok.extern.slf4j.Slf4j;
			import org.gdal.gdal.Band;
			import org.gdal.gdal.Dataset;
			import org.gdal.gdal.gdal;
			//import org.gdal.gdalconstConstants.gdalconst;
			import org.gdal.gdalconst.gdalconstConstants;
			import org.gdal.ogr.*;
			import org.springframework.stereotype.Service;
			import org.springframework.util.CollectionUtils;

			import javax.annotation.Resource;
			import java.awt.*;
			import java.awt.image.BufferedImage;
			import java.io.BufferedReader;
			import java.io.File;
			import java.io.FileReader;
			import java.io.IOException;
			import java.math.BigDecimal;
			import java.math.RoundingMode;
			import java.text.ParseException;
			import java.text.SimpleDateFormat;
			import java.util.*;
			import java.util.List;
			import java.util.concurrent.CopyOnWriteArrayList;

			@Slf4j
			@Service
			@@ -42,14 +31,13 @@
			@Resource
			PropertiesConfig config;

			@Resource
			ResultService resultService;
			public static final double MIN_VAL = 0.00001;

			public final static double MAX_X_OFFSET = 0;
			public static final double MAX_X_OFFSET = 0;

			public final static SimpleDateFormat SDF = new SimpleDateFormat("yyyy-MM-dd HH:mm");
			public static final SimpleDateFormat SDF = new SimpleDateFormat("yyyy-MM-dd HH:mm");

			public void test(DataPo data) throws Exception {
			public void test(SimuData data) throws IOException {
			String basePath = config.getInPath() + File.separator + data.getInPath() + File.separator;
			ResultDto dto = new ResultDto(
			data.getInPath(),
			@@ -64,15 +52,26 @@
			process(dto, layer);
			}

			private void process(ResultDto dto, LayerDto layer) throws Exception {
			private void process(ResultDto dto, LayerDto layer) throws IOException {
			try {
			copeTerrain(dto, layer);
			//copeBuilding(dto, layer);
			List<BuildingDepthVo> buildings = copeWater(dto, layer);
			//copeFlow(dto, layer);
			copeWater(dto, layer);
			copeFlow(dto, layer);
			copeLayerJson(dto, layer);
			//copeRainFallJson(dto, layer);
			//copeBuildingDepthJson(dto, buildings);
			} finally {
			File dir = new File(dto.getTemp());
			if (dir.exists()) {
			FileUtil.del(dir);
			}
			}
			}

			public void processRealTime(ResultDto dto, LayerDto layer) throws IOException {
			try {
			copeTerrainRealTime(dto, layer);
			copeWater(dto, layer);
			copeFlow(dto, layer);
			copeLayerJson(dto, layer);
			} finally {
			File dir = new File(dto.getTemp());
			if (dir.exists()) {
			@@ -84,10 +83,10 @@
			public void copeTerrain(ResultDto dto, LayerDto layer) {
			Dataset ds = null;
			try {
			// gdalconst，gdalconstConstants
			ds = gdal.Open(dto.getTerrainFile(), gdalconstConstants.GA_ReadOnly);
			ds = gdal.Open(dto.getTerrainFile(), gdalconstConstants.GA_ReadOnly); // gdalconst
			if (null == ds \|\| 0 == ds.getRasterCount()) return;

			setSizes(ds, layer);
			setTerrainInfo(ds, layer);
			setWaterInfo(dto, layer);
			createTerrainPng(dto, ds, layer);
			@@ -96,19 +95,45 @@
			}
			}

			private void copeTerrainRealTime(ResultDto dto, LayerDto layer) {
			Dataset ds = null;
			try {
			ds = gdal.Open(dto.getTerrainFile(), gdalconstConstants.GA_ReadOnly); // gdalconst
			if (null == ds \|\| 0 == ds.getRasterCount()) return;

			setSizes(ds, layer);
			setTerrainInfo(ds, layer);
			setWaterInfo(dto, layer);
			createTerrainPng(dto, ds, layer);
			} finally {
			if (null != ds) ds.delete();
			}
			}

			private void setSizes(Dataset ds, LayerDto layer) {
			int xSize = ds.getRasterXSize();
			int ySize = ds.getRasterYSize();
			double rate = xSize < ySize ? xSize * 1.0 / ySize : ySize * 1.0 / xSize;

			List<int[]> list = layer.getTerrain().getSize();
			for (int i = 0, c = list.size(); i < c; i++) {
			if (xSize < ySize) {
			list.get(i)[0] = (int) Math.floor(list.get(i)[0] * rate);
			} else {
			list.get(i)[1] = (int) Math.floor(list.get(i)[1] * rate);
			}
			}
			}

			public void setTerrainInfo(Dataset ds, LayerDto layer) {
			Geometry minPoint = GdalHelper.getMinPoint(ds);
			Geometry maxPoint = GdalHelper.getMaxPoint(ds);
			double minx = ComHelper.getMinVal(minPoint.GetX(0), 10000000);
			double miny = ComHelper.getMinVal(minPoint.GetY(0), 10000000);
			double maxx = ComHelper.getMaxVal(maxPoint.GetX(0) + MAX_X_OFFSET, 10000000);
			double maxy = ComHelper.getMaxVal(maxPoint.GetY(0), 10000000);
			//layer.setExtension(new ExtensionDto(minx, miny, maxx, maxy, Double.MAX_VALUE, Double.MIN_VALUE));
			double minx = Double.MAX_VALUE;
			double miny = Double.MAX_VALUE;
			double maxx = Double.MIN_VALUE;
			double maxy = Double.MIN_VALUE;

			Band band = ds.GetRasterBand(1);
			double[] mm = new double[2];
			band.ComputeRasterMinMax(mm, 0);
			//layer.getTerrain().setHeight(getMinVal(mm[0], 1000), getMaxVal(mm[1], 1000));
			layer.setExtension(new ExtensionDto(minx, miny, maxx, maxy, mm[0], mm[1]));
			}

			@@ -123,11 +148,11 @@
			if (!new File(tif).exists()) continue;

			String png = terrainPath + File.separator + sizes[0] + "_" + sizes[1] + ".png";
			Terrain2Png(layer, tif, png, sizes[0], sizes[1]);
			terrain2Png(layer, tif, png, sizes[0], sizes[1]);
			}
			}

			public void Terrain2Png(LayerDto layer, String tif, String png, int width, int height) {
			public void terrain2Png(LayerDto layer, String tif, String png, int width, int height) {
			Dataset ds = null;
			try {
			ds = gdal.Open(tif, gdalconstConstants.GA_ReadOnly);
			@@ -140,13 +165,16 @@
			layer.getTerrain().getVals().put(width + "_" + height, buffer);

			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			double differ = layer.getExtension().getMaxHeight() - layer.getExtension().getMinHeight(), minHeight = layer.getExtension().getMinHeight();
			double differ = layer.getExtension().getMaxHeight() - layer.getExtension().getMinHeight();
			double minHeight = layer.getExtension().getMinHeight();
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			int offset = x + y * width;
			if (Float.isNaN(buffer[offset]) \|\| buffer[offset] < -999 \|\| buffer[offset] < minHeight) continue;

			int r = 0, g, b;
			int r = 0;
			int g;
			int b;
			if (buffer[offset] - layer.getExtension().getMaxHeight() > 0) {
			g = b = 255;
			} else {
			@@ -169,7 +197,7 @@
			public void setWaterInfo(ResultDto dto, LayerDto layer) {
			List<String> files = getFiles(dto.getWaterPath(), ".tif");
			layer.getWaters().setFiles(files);
			if (null == files \|\| files.size() == 0) return;
			if (null == files \|\| files.isEmpty()) return;

			setWaterData(layer, files);
			setWaterHeight(layer, files);
			@@ -177,15 +205,11 @@

			public List<BuildingDepthVo> copeWater(ResultDto dto, LayerDto layer) {
			List<String> files = layer.getWaters().getFiles();
			if (files.size() == 0 \|\| files.size() != layer.getWaters().getData().size()) return null;
			if (files.isEmpty() \|\| files.size() != layer.getWaters().getData().size()) return Collections.emptyList();

			processWaters(dto, files, layer);

			if (new File(dto.getBuildingFile()).exists()) {
			return processBuilding(dto, files, layer);
			}

			return null;
			return Collections.emptyList();
			}

			public List<String> getFiles(String path, String suffix) {
			@@ -197,49 +221,19 @@
			}

			public void setWaterData(LayerDto layer, List<String> files) {
			Calendar calendar = Calendar.getInstance();
			calendar.setTime(new Date());
			calendar.set(Calendar.MILLISECOND, 0);

			for (String file : files) {
			String fileName = ComHelper.getNameWithExt(file);
			int year = Integer.parseInt(fileName.substring(0, 4));
			int month = Integer.parseInt(fileName.substring(4, 6));
			int day = Integer.parseInt(fileName.substring(6, 8));
			int hour = Integer.parseInt(fileName.substring(8, 10));
			int minute = Integer.parseInt(fileName.substring(10, 12));
			int second = Integer.parseInt(fileName.substring(12, 14));

			calendar.set(Calendar.YEAR, year);
			calendar.set(Calendar.MONTH, month);
			calendar.set(Calendar.DAY_OF_MONTH, day);
			calendar.set(Calendar.HOUR_OF_DAY, hour);
			calendar.set(Calendar.MINUTE, minute);
			calendar.set(Calendar.SECOND, second);

			layer.getWaters().getData().add(calendar.getTime().getTime());
			long timestamp = TimeFormatUtil.toMillis(fileName, "yyyyMMddHHmmss");
			layer.getWaters().getData().add(timestamp);
			}
			layer.getDuration().setStart(layer.getWaters().getData().get(0));
			layer.getDuration().setEnd(layer.getWaters().getData().get(layer.getWaters().getData().size() - 1));
			}

			public void setWaterHeight(LayerDto layer, List<String> files) {
			/*files.parallelStream().forEach(file -> {
			Dataset ds = null;
			try {
			ds = gdal.Open(file, gdalconstConstants.GA_ReadOnly);
			if (null == ds \|\| 0 == ds.getRasterCount()) return;

			double[] mm = new double[2];
			ds.GetRasterBand(1).ComputeRasterMinMax(mm, 0);
			layer.getWaters().setHeight(mm[0], mm[1]);
			} finally {
			if (null != ds) ds.delete();
			}
			});*/

			int c = files.size();
			int step = c <= 1 ? 1 : c / 10;
			int step = files.size() / 10;
			if (step < 1) step = 1;
			for (int i = 0; i < c; i += step) {
			Dataset ds = null;
			try {
			@@ -261,13 +255,15 @@
			}

			public void processWaters(ResultDto dto, List<String> files, LayerDto layer) {
			List<Double> waterDepths = new ArrayList<>();
			for (int i = 0, c = files.size(); i < c; i++) {
			Dataset ds = null;
			try {
			ds = gdal.Open(files.get(i), gdalconstConstants.GA_ReadOnly);
			if (null == ds \|\| 0 == ds.getRasterCount()) return;
			if (null == ds.GetSpatialRef()) ds.SetSpatialRef(dto.getSpatialReference());

			waterDepths.add(layer.getWaters().getMinHeight());
			waterDepths.add(layer.getWaters().getMaxHeight());
			createWaterPng(dto, ds, layer, layer.getWaters().getData().get(i));
			//if (config.getCopyTif()) copyWaterTif(dto, ds, layer.getWaters().getData().get(i));
			///createVectors(dto, ds, layer, layer.getWaters().getData().get(i));
			@@ -275,6 +271,9 @@
			if (null != ds) ds.delete();
			}
			}
			waterDepths.sort(null);
			layer.getWaters().setMinHeight(waterDepths.get(0));
			layer.getWaters().setMaxHeight(waterDepths.get(waterDepths.size() - 1));
			}

			public void createWaterPng(ResultDto dto, Dataset ds, LayerDto layer, long ticks) {
			@@ -285,7 +284,7 @@
			for (int[] sizes : layer.getTerrain().getSize()) {
			String fileName = ComHelper.getNameWithExt(ds.GetDescription()) + "_" + sizes[0] + "_" + sizes[1];
			String tif = dto.getTemp() + File.separator + fileName + ".tif";
			ComHelper.Resample(ds, tif, sizes[0], sizes[1], layer);
			ComHelper.Resample2(ds, tif, sizes[0], sizes[1], layer);
			if (!new File(tif).exists()) continue;

			String png = waterPath + File.separator + sizes[0] + "_" + sizes[1] + ".png";
			@@ -303,191 +302,126 @@
			float[] buffer = new float[width * height];
			band.ReadRaster(0, 0, width, height, buffer);
			double[] transform = ds.GetGeoTransform();
			buffer = interpolateGrid(buffer, width, height);

			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			//double differ = layer.getWaters().getMaxHeight() - layer.getWaters().getMinHeight(), minHeight = layer.getWaters().getMinHeight();
			double differ = layer.getExtension().getDiffer(), maxHeight = layer.getExtension().getMaxHeight(), minHeight = layer.getExtension().getMinHeight();
			double differ = layer.getExtension().getDiffer();
			double maxHeight = layer.getExtension().getMaxHeight();
			double minHeight = layer.getExtension().getMinHeight();
			float[] ts = layer.getTerrain().getVals().get(width + "_" + height);
			// double minDepth = Double.MAX_VALUE;
			// double maxDepth = Double.MIN_VALUE;
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			int offset = x + y * width;
			//if (Float.isNaN(buffer[offset]) \|\| buffer[offset] < -999 \|\| buffer[offset] < minHeight) continue;
			if (Float.isNaN(buffer[offset]) \|\| buffer[offset] <= 0.001 \|\| Float.isNaN(ts[offset])) continue;
			float depth = buffer[offset];
			if (Float.isNaN(depth) \|\| depth < MIN_VAL \|\| Float.isNaN(ts[offset])) continue;

			//double X = transform[0] + x * transform[1] + y * transform[2];
			//double Y = transform[3] + x * transform[4] + y * transform[5];
			//BuildingDto building = intersects(dto, X, Y);
			//if (null != building) continue;

			int r = 0, g, b;
			if (buffer[offset] + ts[offset] > maxHeight) {
			int r = 0;
			int g;
			int b;
			if (depth + ts[offset] > maxHeight) {
			g = b = 255;
			} else {
			//int val = (int) ((buffer[offset] + ts[offset] - minHeight) / differ * 65535);
			int val = (int) (buffer[offset] / differ * 65535);
			int val = (int) ((depth + ts[offset] - minHeight) / differ * 65535);
			//int val = (int) (buffer[offset] / differ * 65535);
			g = val / 256;
			b = val % 256;
			}

			g = ComHelper.getSafeValue(g);
			b = ComHelper.getSafeValue(b);
			Color color = new Color(r, g, b, 127);
			image.setRGB(x, y, color.getRGB());

			// maxDepth = Math.max(maxDepth, depth);
			// minDepth = Math.min(minDepth, depth);
			}
			}
			// Double srcMinHeight = layer.getWaters().getMinHeight();
			// Double srcMaxHeight = layer.getWaters().getMaxHeight();
			// if (srcMinHeight == null) {
			// srcMinHeight = minDepth;
			// layer.getWaters().setMinHeight(minDepth);
			// }
			// if (srcMaxHeight == null) {
			// srcMaxHeight = maxDepth;
			// layer.getWaters().setMaxHeight(maxDepth);
			// }
			// if (minDepth < srcMinHeight) {
			// layer.getWaters().setMinHeight(minDepth);
			// }
			// if (maxDepth < srcMaxHeight) {
			// layer.getWaters().setMaxHeight(maxDepth);
			// }
			ComHelper.savePng(image, png);
			} finally {
			if (null != ds) ds.delete();
			}
			}

			public List<BuildingDepthVo> processBuilding(ResultDto dto, List<String> files, LayerDto layer) {
			List<BuildingDepthVo> list = new CopyOnWriteArrayList<>();
			for (int i = 0, c = files.size(); i < c; i++) {
			Dataset ds = null;
			try {
			ds = gdal.Open(files.get(i), gdalconstConstants.GA_ReadOnly);
			if (null == ds \|\| 0 == ds.getRasterCount()) continue;
			if (null == ds.GetSpatialRef()) ds.SetSpatialRef(dto.getSpatialReference());

			copeBuildingDepth(dto, ds, layer.getWaters().getData().get(i), list);
			} finally {
			if (null != ds) ds.delete();
			/**
			* 插值处理-四邻域
			*/
			public float[] interpolateGrid(float[] buffer, int width, int height) {
			float[] tempBuffer = new float[width * height];
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			int index = x + y * width;
			float current = buffer[index];
			if (current <= MIN_VAL) {
			float sum = 0;
			int count = 0;
			// 检查上邻
			if (y > 0) {
			float neighbor = buffer[x + (y - 1) * width];
			if (neighbor > MIN_VAL) {
			sum += neighbor;
			count++;
			}
			}
			// 检查下邻
			if (y < height - 1) {
			float neighbor = buffer[x + (y + 1) * width];
			if (neighbor > MIN_VAL) {
			sum += neighbor;
			count++;
			}
			}
			// 检查左邻
			if (x > 0) {
			float neighbor = buffer[x - 1 + y * width];
			if (neighbor > MIN_VAL) {
			sum += neighbor;
			count++;
			}
			}
			// 检查右邻
			if (x < width - 1) {
			float neighbor = buffer[x + 1 + y * width];
			if (neighbor > MIN_VAL) {
			sum += neighbor;
			count++;
			}
			}
			// 计算新值
			if (count > 0) {
			tempBuffer[index] = (sum / count) * 0.5f;
			} else {
			tempBuffer[index] = 0;
			}
			} else {
			tempBuffer[index] = current;
			}
			}
			}

			return list;
			}

			public void copeBuildingDepth(ResultDto dto, Dataset ds, long ticks, List<BuildingDepthVo> list) {
			double[] transform = ds.GetGeoTransform();
			int xSize = ds.getRasterXSize(), ySize = ds.getRasterYSize();
			double minX = transform[0], pixelWidth = transform[1], maxY = transform[3], pixelHeight = Math.abs(transform[5]);

			for (BuildingDto building : dto.getBuildingList()) {
			Double val = getValue(ds, building, xSize, ySize, minX, maxY, pixelWidth, pixelHeight);
			list.add(new BuildingDepthVo(building.getId(), ticks, val));
			}
			}

			public Double getValue(Dataset ds, BuildingDto building, int xSize, int ySize, double minX, double maxY, double pixelWidth, double pixelHeight) {
			double[] env = new double[4];
			building.getGeom().GetEnvelope(env);

			int startX = (int) Math.floor((env[0] - minX) / pixelWidth);
			int endX = (int) Math.floor((env[1] - minX) / pixelWidth);
			int startY = (int) Math.floor((maxY - env[3]) / Math.abs(pixelHeight));
			int endY = (int) Math.floor((maxY - env[2]) / Math.abs(pixelHeight));
			if (startX < 0) startX = 0;
			if (startY < 0) startY = 0;
			if (endX > ds.getRasterXSize()) endX = ds.getRasterXSize();
			if (endY > ds.getRasterYSize()) endY = ds.getRasterYSize();
			if (endX - startX < 1 \|\| endY - startY < 1) return null;

			int width = endX - startX;
			int height = endY - startY;
			double[] pixelValues = new double[width * height];
			ds.GetRasterBand(1).ReadRaster(startX, startY, width, height, pixelValues);

			Double val = Arrays.stream(pixelValues).max().getAsDouble();

			return ComHelper.isValid(val) ? val : null;
			}

			public void createVectors(ResultDto dto, Dataset ds, LayerDto layer, Long ticks) {
			String filePath = dto.getOutPath() + File.separator + "waters" + File.separator + ticks + File.separator + "polygonize.geojson";
			ShpHelper.polygonize2Geojson(ds, filePath);

			/*List<Geometry> geometries = getGeometries(filePath);
			if (CollectionUtils.isEmpty(geometries)) return;

			List<PondingPo> list = copePonding(dto, ds, layer, geometries);
			if (CollectionUtils.isEmpty(list)) return;

			try {
			filePath = dto.getOutPath() + File.separator + "waters" + File.separator + ticks + File.separator + "water.json";
			ComHelper.writeJson(filePath, JSON.toJSONString(list));
			} catch (Exception ex) {
			log.error(ex.getMessage(), ex);
			}*/
			}

			public List<Geometry> getGeometries(String filePath) {
			if (!FileUtil.exist(filePath)) return null;

			Driver driver = null;
			DataSource dataSource = null;
			org.gdal.ogr.Layer layer = null;
			try {
			driver = ogr.GetDriverByName("GeoJSON");
			if (null == driver) return null;

			DataSource ds = driver.Open(filePath);
			if (null == ds) return null;

			layer = ds.GetLayer(0);
			List<Geometry> list = new ArrayList<>();
			for (long i = 0, d = layer.GetFeatureCount(); i < d; i++) {
			Feature f = layer.GetFeature(i);
			if (f.GetFieldAsDouble("val") < -999) continue;

			list.add(f.GetGeometryRef());
			}

			return list;
			} catch (Exception ex) {
			log.error(ex.getMessage(), ex);
			return null;
			} finally {
			GdalHelper.delete(layer, dataSource, driver);
			}
			}

			public List<PondingPo> copePonding(ResultDto dto, Dataset ds, LayerDto layer, List<Geometry> geometries) {
			double[] transform = ds.GetGeoTransform();
			int xSize = ds.getRasterXSize(), ySize = ds.getRasterYSize();

			List<PondingPo> list = new ArrayList<>();
			for (Geometry geometry : geometries) {
			//List<PointDto> points = getValues(ds, geometry, transform, xSize, ySize);
			//if (CollectionUtils.isEmpty(points)) continue;

			//PointDto point = Collections.max(points);
			PointDto point = getValues(ds, geometry, transform, xSize, ySize);
			if (null == point) continue;

			list.add(new PondingPo(geometry, point));
			}

			return list;
			}

			public PointDto getValues(Dataset ds, Geometry g, double[] transform, int xSize, int ySize) {
			double[] env = new double[4];
			g.GetEnvelope(env);

			int startX = (int) Math.floor((env[0] - transform[0]) / transform[1]);
			int endX = (int) Math.floor((env[1] - transform[0]) / transform[1]);
			int startY = (int) Math.floor((transform[3] - env[3]) / Math.abs(transform[5]));
			int endY = (int) Math.floor((transform[3] - env[2]) / Math.abs(transform[5]));
			if (startX < 0) startX = 0;
			if (startY < 0) startY = 0;
			if (endX > ds.getRasterXSize()) endX = ds.getRasterXSize();
			if (endY > ds.getRasterYSize()) endY = ds.getRasterYSize();
			if (endX - startX < 1 \|\| endY - startY < 1) return null;

			int width = endX - startX;
			int height = endY - startY;
			double[] pixelValues = new double[width * height];
			ds.GetRasterBand(1).ReadRaster(startX, startY, width, height, pixelValues);

			Double val = Arrays.stream(pixelValues).max().getAsDouble();

			return new PointDto(g.Centroid().GetX(), g.Centroid().GetY(), ComHelper.isValid(val) ? val : 0.0);
			//System.arraycopy(tempBuffer, 0, buffer, 0, tempBuffer.length); // 复制回原数组
			return tempBuffer;
			}

			public void copeFlow(ResultDto dto, LayerDto layer) {
			List<String> files = getFiles(dto.getFlowPath(), ".tif");
			if (null == files \|\| files.size() != layer.getWaters().getData().size()) return;

			List<String> files = layer.getWaters().getFiles();
			if (null == files \|\| files.isEmpty()) return;
			for (int i = 0, c = files.size(); i < c; i++) {
			Dataset ds = null;
			try {
			@@ -510,38 +444,72 @@
			for (int[] sizes : layer.getTerrain().getSize()) {
			String name = ComHelper.getNameWithExt(ds.GetDescription()) + "_" + sizes[0] + "_" + sizes[1];
			String tif = dto.getTemp() + File.separator + name + ".tif";
			ComHelper.Resample(ds, tif, sizes[0], sizes[1], layer);
			// ComHelper.Resample(ds, tif, sizes[0], sizes[1], layer);
			if (!new File(tif).exists()) continue;

			String png = flowPath + File.separator + sizes[0] + "_" + sizes[1] + ".png";
			vxyTif2Png(layer, tif, png, sizes[0], sizes[1]);
			vxyTif2Png(tif, png, sizes[0], sizes[1]);
			}
			}

			public void vxyTif2Png(LayerDto layer, String tif, String png, int width, int height) {
			public void vxyTif2Png(String tif, String png, int width, int height) {
			Dataset ds = null;
			try {
			ds = gdal.Open(tif, gdalconstConstants.GA_ReadOnly);
			if (null == ds \|\| 0 == ds.getRasterCount()) return;

			float[] vxBuffer = new float[width * height], vyBuffer = new float[width * height];
			ds.GetRasterBand(1).ReadRaster(0, 0, width, height, vxBuffer);
			ds.GetRasterBand(2).ReadRaster(0, 0, width, height, vyBuffer);
			float[] depthBuffer = new float[width * height];
			float[] vxBuffer = new float[width * height];
			float[] vyBuffer = new float[width * height];

			createFlowPng(vxBuffer, vyBuffer, png, width, height);
			ds.GetRasterBand(1).ReadRaster(0, 0, width, height, depthBuffer);
			ds.GetRasterBand(2).ReadRaster(0, 0, width, height, vxBuffer);
			ds.GetRasterBand(3).ReadRaster(0, 0, width, height, vyBuffer);

			createFlowPng(depthBuffer, vxBuffer, vyBuffer, png, width, height);
			} finally {
			if (null != ds) ds.delete();
			}
			}

			public void createFlowPng(float[] vxBuffer, float[] vyBuffer, String png, int width, int height) {
			public void createFlowPng(float[] depthBuffer, float[] vxBuffer, float[] vyBuffer, String png, int width, int height) {
			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			int offset = x + y * width;
			float depth = ComHelper.getFloatValue(depthBuffer[offset]);
			float fx = ComHelper.getFloatValue(vxBuffer[offset]);
			float fy = ComHelper.getFloatValue(vyBuffer[offset]);
			if (Float.isNaN(fx) && Float.isNaN(fy) \|\| (fx < MIN_VAL && fy < MIN_VAL)) continue;

			if (depth == 0) {
			fx = 0f;
			fy = 0f;
			} else {
			fx = Float.isNaN(fx) ? 0 : fx / depth;
			fy = Float.isNaN(fy) ? 0 : fy / depth;
			}
			double dr = Math.sqrt(Math.pow(fx, 2) + Math.pow(fy, 2));

			int r = (int) (dr / 4 * 255);
			int g = (int) ((fx / dr * 0.5 + 0.5) * 255);
			int b = (int) ((fy / dr * 0.5 + 0.5) * 255);

			Color color = new Color(ComHelper.getSafeValue(r), ComHelper.getSafeValue(g), ComHelper.getSafeValue(b), 127);
			image.setRGB(x, y, color.getRGB());
			}
			}
			ComHelper.savePng(image, png);
			}

			/*public void createFlowPng(float[] vxBuffer, float[] vyBuffer, String png, int width, int height) {
			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			int offset = x + y * width;
			float fx = ComHelper.getFloatValue(vxBuffer[offset]);
			float fy = ComHelper.getFloatValue(vyBuffer[offset]);
			if (Float.isNaN(fx) && Float.isNaN(fy) \|\| (fx == 0 && fy == 0)) continue;
			if (Float.isNaN(fx) && Float.isNaN(fy) \|\| (fx < MIN_VAL && fy < MIN_VAL)) continue;

			fx = Float.isNaN(fx) ? 0 : fx;
			fy = Float.isNaN(fy) ? 0 : fy;
			@@ -556,18 +524,20 @@
			}
			}
			ComHelper.savePng(image, png);
			}
			}*/

			public void copeLayerJson(ResultDto dto, LayerDto layer) throws IOException {
			layer.getWaters().setFiles(null);
			layer.getTerrain().setEpsg(null);
			layer.getExtension().setDiffer(null);
			layer.setWaterUrl("/hls/w" + config.getOutPath() + ".m3u8");
			layer.setFlowUrl("//hls/f" + config.getOutPath() + ".m3u8");

			String path = dto.getOutPath().replace(config.getOutPath() + File.separator, "");
			layer.setWaterUrl("/hls/w" + path + ".m3u8");
			layer.setFlowUrl("/hls/f" + path + ".m3u8");

			String json = JSON.toJSONString(layer);
			// String json = JSONUtil.toJsonPrettyStr(layer);
			String filePath = dto.getOutPath() + File.separator + "layer.json";
			// String filePath = dto.getOutPath() + File.separator + "layer.json";
			String filePath = dto.getOutPath() + File.separator + layer.getName();

			ComHelper.writeJson(filePath, json);
			}