simuserver.git - Gitblit

			@@ -1,11 +1,12 @@
			package com.se.simu.service;

			import cn.hutool.core.io.FileUtil;
			import cn.hutool.json.JSONUtil;
			import com.alibaba.fastjson.JSON;
			import com.se.simu.config.PropertiesConfig;
			import com.se.simu.domain.dto.ExtensionDto;
			import com.se.simu.domain.dto.LayerDto;
			import com.se.simu.domain.dto.ResultDto;
			import com.se.simu.domain.po.DataPo;
			import com.se.simu.helper.GdalHelper;
			import lombok.extern.slf4j.Slf4j;
			import org.gdal.gdal.Band;
			@@ -39,24 +40,22 @@

			public final static double MAX_X_OFFSET = 0.002;

			public String test() throws Exception {
			public void process(DataPo data) throws Exception {
			String basePath = config.getInPath() + File.separator + data.getInPath() + File.separator;
			ResultDto dto = new ResultDto(
			"202409",
			"D:\\simu\\input\\tongzhou-local-mesh2-terrain.tif",
			"D:\\simu\\input\\tongzhou-local-mesh2-buildings.tif",
			"D:\\simu\\input\\waters",
			"D:\\simu\\input\\flows",
			"D:\\simu\\out",
			data.getInPath(),
			basePath + config.getTerrainFile(),
			basePath + config.getBuildingFile(),
			basePath + config.getWaterPath(),
			basePath + config.getFlowPath(),
			config.getOutPath(),
			"");
			process(dto);

			return "OK";
			LayerDto layer = new LayerDto(config.getVer(), data.getEpsg(), config.getSizes());
			process(dto, layer);
			}

			public void process(ResultDto dto) throws Exception {
			private void process(ResultDto dto, LayerDto layer) throws Exception {
			try {
			LayerDto layer = new LayerDto(config.getVer());

			copeTerrain(dto, layer);
			copeBuilding(dto, layer);
			copeWater(dto, layer);
			@@ -70,6 +69,9 @@
			}
			}

			/**
			* 地形
			*/
			private void copeTerrain(ResultDto dto, LayerDto layer) {
			Dataset ds = null;
			try {
			@@ -124,14 +126,11 @@

			private static void Resample(Dataset ds, String dest, int width, int height, LayerDto layer) {
			Vector<String> vector = new Vector<>();
			//vector.add("-s_srs");
			//vector.add("EPSG:" + 4326);
			vector.add("-t_srs");
			vector.add("EPSG:" + 4326);
			vector.add("-r");
			vector.add("bilinear");
			vector.add("-of");
			vector.add("GTiff");
			vector.add("-ts");
			vector.add("" + width);
			vector.add("" + height);
			vector.add("-te");
			vector.add("" + layer.getExtension().getMinx());
			vector.add("" + layer.getExtension().getMiny());
			@@ -139,6 +138,10 @@
			vector.add("" + layer.getExtension().getMaxy());
			vector.add("-te_srs");
			vector.add("EPSG:" + 4326);
			vector.add("-r");
			vector.add("bilinear");
			vector.add("-of");
			vector.add("GTiff");
			WarpOptions warpOptions = new WarpOptions(vector);

			Dataset destDs = gdal.Warp(dest, new Dataset[]{ds}, warpOptions);
			@@ -157,12 +160,6 @@
			band.ReadRaster(0, 0, width, height, buffer);

			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			Graphics2D graphic = image.createGraphics();
			Color transparent = new Color(0, 0, 0, 0);
			graphic.setColor(transparent);
			graphic.clearRect(0, 0, width, height);
			graphic.dispose();

			double differ = layer.getExtension().getMaxHeight() - layer.getExtension().getMinHeight(), minHeight = layer.getExtension().getMinHeight();
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			@@ -179,21 +176,38 @@
			}

			Color color = new Color(r, g, b, 127);
			//image.setRGB(x, y, color.getRGB());
			graphic.drawImage(image, x, y, 1, 1, color, null);
			//graphic.drawImage(image, x, y, 1, 1, color, null);
			image.setRGB(x, y, color.getRGB());
			}
			}

			try {
			ImageIO.write(image, "png", new File(png));
			} catch (Exception ex) {
			log.error(ex.getMessage(), ex);
			}
			savePng(image, png);
			} finally {
			if (null != ds) ds.delete();
			}
			}

			private static BufferedImage createImage(int width, int height) {
			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			Graphics2D graphic = image.createGraphics();
			Color transparent = new Color(0, 0, 0, 0);
			graphic.setColor(transparent);
			graphic.clearRect(0, 0, width, height);
			graphic.dispose();

			return image;
			}

			private static void savePng(BufferedImage image, String png) {
			try {
			ImageIO.write(image, "png", new File(png));
			} catch (Exception ex) {
			log.error(ex.getMessage(), ex);
			}
			}

			/**
			* 建筑
			*/
			private void copeBuilding(ResultDto dto, LayerDto layer) {
			Dataset ds = null;
			try {
			@@ -210,7 +224,8 @@

			float[] buffer = new float[sizes[0] * sizes[1]];
			//dataset.GetRasterBand(1).ReadRaster(0, 0, sizes[0], sizes[1], buffer, sizes[0], sizes[1], 0, 0);
			//args.buildings[sizes[0] + "_" + sizes[1]] = buffer;
			dataset.GetRasterBand(1).ReadRaster(0, 0, sizes[0], sizes[1], buffer);
			dto.getBuildings().put(sizes[0] + "_" + sizes[1], buffer);

			dataset.delete();
			}
			@@ -219,8 +234,11 @@
			}
			}

			/**
			* 水面
			*/
			private void setWaterInfo(ResultDto dto, LayerDto layer) {
			List<String> files = getFiles(dto.getWaterPath(), "");
			List<String> files = getFiles(dto.getWaterPath(), ".tif");
			layer.getWaters().setFiles(files);
			if (null == files \|\| files.size() == 0) return;

			@@ -229,40 +247,198 @@
			}

			private void copeWater(ResultDto dto, LayerDto layer) {
			//
			List<String> files = layer.getWaters().getFiles();
			if (files.size() == 0 \|\| files.size() != layer.getWaters().getData().size()) return;

			processWaters(dto, files, layer);
			}

			private static List<String> getFiles(String path, String prefix) {
			private static List<String> getFiles(String path, String suffix) {
			List<String> files = new ArrayList<>();
			getFiles(files, new File(path), suffix);
			files.sort((a, b) -> a.compareToIgnoreCase(b));

			return new ArrayList<String>();
			return files;
			}

			private static void getFiles(List<String> files, File file, String suffix) {
			if (!file.exists()) return;

			if (file.isDirectory()) {
			File[] fileList = file.listFiles();
			for (File f : fileList) {
			if (f.isDirectory()) {
			getFiles(files, f, suffix);
			} else {
			if (f.getName().toLowerCase().endsWith(suffix)) {
			files.add(f.getPath());
			}
			}
			}
			} else {
			if (file.getName().toLowerCase().endsWith(suffix)) {
			files.add(file.getPath());
			}
			}
			}

			private static 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 = getNameWithExt(file);
			int hour = Integer.parseInt(fileName.substring(0, 2));
			int minute = Integer.parseInt(fileName.substring(2, 4));
			int second = Integer.parseInt(fileName.substring(4, 6));

			calendar.set(Calendar.HOUR_OF_DAY, hour);
			calendar.set(Calendar.MINUTE, minute);
			calendar.set(Calendar.SECOND, second);

			layer.getWaters().getData().add(calendar.getTime().getTime());
			}
			layer.getDuration().setStart(layer.getWaters().getData().get(0));
			layer.getDuration().setEnd(layer.getWaters().getData().get(layer.getWaters().getData().size() - 1));
			}

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

			double[] mm = new double[2];
			ds.GetRasterBand(1).ComputeRasterMinMax(mm, 0);
			layer.getExtension().setHeight(mm[0], mm[1]);
			} finally {
			if (null != ds) ds.delete();
			}
			});
			layer.getExtension().setMinHeight(getMinVal(layer.getExtension().getMinHeight() - 1, 1000));
			layer.getExtension().setMaxHeight(getMaxVal(layer.getExtension().getMaxHeight() + 1, 1000));
			}

			private static void processWaters(ResultDto dto, List<String> files, LayerDto layer) {
			//
			for (int i = 0, c = files.size(); i < c; i++) {
			Dataset ds = null;
			try {
			ds = gdal.Open(files.get(i), gdalconst.GA_ReadOnly);
			if (null == ds \|\| 0 == ds.getRasterCount() \|\| null == ds.GetSpatialRef()) return;

			createWaterPng(dto, ds, layer, layer.getWaters().getData().get(i));
			} finally {
			if (null != ds) ds.delete();
			}
			}
			}

			private static void createWaterPng(ResultDto dto, Dataset ds, LayerDto layer, long ticks) {
			//
			String waterPath = dto.getOutPath() + File.separator + "waters" + File.separator + ticks;
			File dir = new File(waterPath);
			if (!dir.exists() \|\| !dir.isDirectory()) dir.mkdirs();

			for (int[] sizes : layer.getTerrain().getSize()) {
			String fileName = getNameWithExt(ds.GetDescription()) + "_" + sizes[0] + "_" + sizes[1];
			String tif = dto.getTemp() + File.separator + fileName + ".tif";
			Resample(ds, tif, sizes[0], sizes[1], layer);
			if (!new File(tif).exists()) continue;

			String png = waterPath + File.separator + sizes[0] + "_" + sizes[1] + ".png";
			water2Png(dto, layer, tif, png, sizes[0], sizes[1]);
			}
			}

			private static String getNameWithExt(String file) {
			return file.substring(file.lastIndexOf(File.separator) + 1, file.lastIndexOf("."));
			}

			private static void water2Png(ResultDto dto, LayerDto layer, String tif, String png, int width, int height) {
			//
			Dataset ds = null;
			try {
			ds = gdal.Open(tif, gdalconst.GA_ReadOnly);
			if (null == ds \|\| 0 == ds.getRasterCount()) return;

			Band band = ds.GetRasterBand(1);
			float[] buffer = new float[width * height];
			//band.ReadRaster(0, 0, width, height, buffer, width, height, 0, 0);
			band.ReadRaster(0, 0, width, height, buffer);
			float[] building = dto.getBuildings().get(width + "_" + height);

			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			double differ = layer.getExtension().getMaxHeight() - layer.getExtension().getMinHeight(), 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;
			if (!Float.isNaN(building[offset]) && building[offset] > -999) continue;

			int r = 0, g, b;
			if (buffer[offset] - layer.getExtension().getMaxHeight() > 0) {
			g = b = 255;
			} else {
			int val = (int) ((buffer[offset] - minHeight) / differ * 65535);
			g = val / 256;
			b = val % 256;
			}

			Color color = new Color(r, g, b, 127);
			image.setRGB(x, y, color.getRGB());
			}
			}
			savePng(image, png);
			} finally {
			if (null != ds) ds.delete();
			}
			}

			private void copeFlow(ResultDto dto, LayerDto layer) {
			//
			List<String> vxFiles = new ArrayList<>();
			List<String> vyFiles = new ArrayList<>();
			List<String> files = getFiles(dto.getFlowPath(), ".tif");
			for (String file : files) {
			if (file.contains(File.separator + "vx")) vxFiles.add(file);
			if (file.contains(File.separator + "vy")) vyFiles.add(file);
			}
			if (null == vxFiles \|\| null == vyFiles \|\| vxFiles.size() != vyFiles.size() \|\| vxFiles.size() != layer.getWaters().getData().size())
			return;

			for (int i = 0, c = vxFiles.size(); i < c; i++) {
			Dataset vxDs = null, vyDs = null;
			try {
			vxDs = gdal.Open(vxFiles.get(i), gdalconst.GA_ReadOnly);
			vyDs = gdal.Open(vyFiles.get(i), gdalconst.GA_ReadOnly);
			if (null == vxDs \|\| 0 == vxDs.getRasterCount() \|\| null == vxDs.GetSpatialRef() \|\| null == vyDs \|\| 0 == vyDs.getRasterCount() \|\| null == vyDs.GetSpatialRef())
			return;

			createFlowPng(dto, vxDs, vyDs, layer, layer.getWaters().getData().get(i));
			} finally {
			if (null != vxDs) vxDs.delete();
			if (null != vyDs) vyDs.delete();
			}
			}
			}

			private static void createFlowPng(ResultDto dto, Dataset vxDs, Dataset vyDs, LayerDto layer, long ticks) {
			//
			String flowPath = dto.getOutPath() + File.separator + "flows" + File.separator + ticks;
			File dir = new File(flowPath);
			if (!dir.exists() \|\| !dir.isDirectory()) dir.mkdirs();

			for (int[] sizes : layer.getTerrain().getSize()) {
			String vxName = getNameWithExt(vxDs.GetDescription()) + "_" + sizes[0] + "_" + sizes[1];
			String vxTif = dto.getTemp() + File.separator + vxName + ".tif";
			Resample(vxDs, vxTif, sizes[0], sizes[1], layer);

			String vyName = getNameWithExt(vyDs.GetDescription()) + "_" + sizes[0] + "_" + sizes[1];
			String vyTif = dto.getTemp() + File.separator + vyName + ".tif";
			Resample(vyDs, vyTif, sizes[0], sizes[1], layer);
			if (!new File(vxTif).exists() \|\| !new File(vyTif).exists()) continue;

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

			private static void vxyTif2Png(LayerDto layer, String vxTif, String vyTif, String png, int width, int height) {
			@@ -273,10 +449,10 @@
			if (null == vxDs \|\| 0 == vxDs.getRasterCount() \|\| null == vyDs \|\| 0 == vyDs.getRasterCount()) return;

			float[] vxBuffer = new float[width * height], vyBuffer = new float[width * height];
			//vxDs.GetRasterBand(1).ReadRaster(0, 0, width, height, vxBuffer, width, height, 0, 0);
			//vyDs.GetRasterBand(1).ReadRaster(0, 0, width, height, vyBuffer, width, height, 0, 0);
			vxDs.GetRasterBand(1).ReadRaster(0, 0, width, height, vxBuffer);
			vyDs.GetRasterBand(1).ReadRaster(0, 0, width, height, vyBuffer);

			//createFlowPng(vxBuffer, vyBuffer, png, width, height);
			createFlowPng(vxBuffer, vyBuffer, png, width, height);
			} finally {
			if (null != vxDs) vxDs.delete();
			if (null != vyDs) vyDs.delete();
			@@ -284,7 +460,28 @@
			}

			private static void createFlowPng(float[] vxBuffer, float[] vyBuffer, String png, int width, int height) {
			//
			BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
			// 用 R通道表示，流向为归一化的二维向量（x,y），G通道表示为 x 255 , B通道表示为 y 255
			for (int x = 0; x < width; x++) {
			for (int y = 0; y < height; y++) {
			int offset = x + y * width;
			float fx = getFloatValue(vxBuffer[offset]);
			float fy = getFloatValue(vyBuffer[offset]);
			if (Float.isNaN(fx) && Float.isNaN(fy) \|\| (fx == 0 && fy == 0)) continue;

			fx = Float.isNaN(fx) ? 0 : fx;
			fy = Float.isNaN(fy) ? 0 : fy;
			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(getSafeValue(r), getSafeValue(g), getSafeValue(b), 127);
			image.setRGB(x, y, color.getRGB());
			}
			}
			savePng(image, png);
			}

			private static float getFloatValue(float val) {
			@@ -298,8 +495,13 @@
			return val;
			}

			/**
			* 元数据
			*/
			private void copeLayerJson(ResultDto dto, LayerDto layer) throws IOException {
			String json = JSONUtil.toJsonPrettyStr(layer);
			layer.getWaters().setFiles(null);
			//String json = JSONUtil.toJsonPrettyStr(layer);
			String json = JSON.toJSONString(layer);
			String filePath = dto.getOutPath() + File.separator + "layer.json";

			FileWriter fw = new FileWriter(filePath);