pipIrr-SV.git - Gitblit

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			package com.dy.common.util;

			public class ByteUtilUnsigned {
			/**
			* 大端模式《数据低位在数组高字节》
			* 无符号int类型转换成4位byte数组
			* java没有无符号整型数据，只有有符号整数，取值范围是-2147483648~2147483647
			* C有无符号整型数据，取值范围是0到4294967295，已经超出了java的有符号整数上限，所以只能用java的long型表示无符号整数
			* @value bs byte[]
			* @value value int int类型的参数
			* @value from int
			* @throws Exception 异常
			*/
			public static void int2Bytes_BE(byte[] bs, long value, int from)throws Exception {
			int len = 4 ;
			Long maxIntUnsigned = Long.valueOf(Integer.MAX_VALUE * 2 + 1) ;
			Long minIntUnsigned = Long.valueOf(Integer.MIN_VALUE * 2) ;
			if(value < minIntUnsigned \|\| value > maxIntUnsigned ){
			throw new Exception("数据" + value + "超出了无符号Int型的取值范围(" + minIntUnsigned + "~" + maxIntUnsigned + ")") ;
			}

			int temp ;
			if(value > Integer.MAX_VALUE){
			temp = (Long.valueOf(value - (Integer.MAX_VALUE * 2 + 1) - 1)).intValue() ;
			}else{
			temp = Long.valueOf(value).intValue() ;
			}
			boolean b = isOutOfArrLength(bs.length, (from - 1) + len);
			if (!b) {
			for (int i = (len - 1); i >= 0; i--) {
			bs[from + i] = Integer.valueOf(temp & 0xff).byteValue();//将最低位保存在高字节
			temp = temp >> 8; // 向右移8位
			}
			} else {
			throw new Exception("int2Bytes时数组越界");
			}
			}


			/**
			* 小端模式《数据低位在数组低字节》
			* 与方法int2Bytes算法一样，只是把顺序反过来
			* @value bs byte[]
			* @value value int int类型的参数
			* @value from int
			*/
			public static void int2Bytes_LE(byte[] bs, long value, int from)throws Exception {
			int len = 4 ;
			Long maxIntUnsigned = Long.valueOf(Integer.MAX_VALUE) * 2 + 1;
			Long minIntUnsigned = Long.valueOf(Integer.MIN_VALUE) * 2 ;
			if(value < minIntUnsigned \|\| value > maxIntUnsigned ){
			throw new Exception("数据" + value + "超出了无符号Int型的取值范围(" + minIntUnsigned + "~" + maxIntUnsigned + ")") ;
			}

			int temp ;
			if(value > Integer.MAX_VALUE){
			temp = (Long.valueOf(value - (Integer.MAX_VALUE * 2 + 1) - 1)).intValue() ;
			}else{
			temp = Long.valueOf(value).intValue() ;
			}
			boolean b = isOutOfArrLength(bs.length, (from - 1) + len);
			if (!b) {
			for (int i = 0; i <= len ; i++) {
			bs[from + i] = Integer.valueOf(temp & 0xff).byteValue();// 将最低位保存在低字节
			temp = temp >> 8; // 向右移8位
			}
			} else {
			throw new Exception("int2Bytes时数组越界");
			}
			}

			/**
			* 大端模式《数据低位在数组高字节》
			* 4位字节数组转换为整型
			* @param bs 字节数组
			* @param from 起始位置
			* @return 结果
			*/
			public static long bytes2Int_BE(byte[] bs, int from) throws Exception {
			boolean b = isOutOfArrLength(bs.length, (from - 1) + 4);
			if (!b) {
			long s = 0;
			long s0 = bs[from + 0] & 0xFF ;// 数据的最高位在低字节
			long s1 = bs[from + 1] & 0xFF ;
			long s2 = bs[from + 2] & 0xFF ;
			long s3 = bs[from + 3] & 0xFF ;

			// 最低位S3不变
			s0 <<= 24;
			s1 <<= 16;
			s2 <<= 8;
			s = s0 \| s1 \| s2 \| s3;
			if(s < 0){
			//s = Integer.MAX_VALUE -s ;
			s = Integer.MAX_VALUE * 2 + 1 + s + 1 ;
			}
			return s;
			} else {
			throw new Exception("byte2Int时数组越界");
			}
			}

			/**
			* 小端模式《数据低位在数组低字节》
			* 与方法bytes2Int算法一样，只是把顺序反过来
			* @param bs 字节数组
			* @param from 字节数组起始位置
			* @return
			*/
			public static long bytes2Int_LE(byte[] bs, int from) throws Exception {
			boolean b = isOutOfArrLength(bs.length, (from - 1) + 4);
			if (!b) {
			long s = 0;
			long s0 = bs[from + 0] & 0xFF ;// 数据的最低位在低字节
			long s1 = bs[from + 1] & 0xFF ;
			long s2 = bs[from + 2] & 0xFF ;
			long s3 = bs[from + 3] & 0xFF ;

			// S0不变
			s1 <<= 8;
			s2 <<= 16;
			s3 <<= 24;
			s = s0 \| s1 \| s2 \| s3;
			if(s < 0){
			//s = Integer.MAX_VALUE -s ;
			s = Integer.MAX_VALUE * 2 + 1 + s + 1 ;
			}
			return s;
			} else {
			throw new Exception("byte2Int时数组越界");
			}
			}

			/**
			* 小端模式《数据低位在数组低字节》
			* 与方法bytes2Int算法一样，只是把顺序反过来
			* @param bs 字节数组
			* @param from 字节数组起始位置
			* @param has3Byte 是否包含数据下标为3的字节，如果不包含实际处理的是3字节的整数
			* @return
			*/
			public static long bytes2Int_LE(byte[] bs, int from, boolean has3Byte) throws Exception {
			boolean b = isOutOfArrLength(bs.length, (from - 1) + 4);
			if (!b) {
			long s = 0;
			long s0 = bs[from + 0] & 0xFF ;// 数据的最低位在低字节
			long s1 = bs[from + 1] & 0xFF ;
			long s2 = bs[from + 2] & 0xFF ;
			long s3 = 0L ;
			if(!has3Byte){
			s3 = bs[from + 3] & 0xFF ;
			}


			// S0不变
			s1 <<= 8;
			s2 <<= 16;
			s3 <<= 24;
			s = s0 \| s1 \| s2 \| s3;
			if(s < 0){
			//s = Integer.MAX_VALUE -s ;
			s = Integer.MAX_VALUE * 2 + 1 + s + 1 ;
			}
			return s;
			} else {
			throw new Exception("byte2Int时数组越界");
			}
			}


			/**
			* 小端模式《数据低位在数组低字节》
			* 与方法bytes2Int算法一样，只是把顺序反过来
			* @param bs
			* @return
			*/
			public static long bytes2Long_LE(byte[] bs, int startIndex, int endIndex) throws Exception {
			boolean b = isOutOfArrLength(bs.length, endIndex);
			if (!b) {
			byte count = 0 ;
			long s = 0;
			long temp = 0 ;
			for(int i = startIndex ; i <= endIndex; i++){
			temp = bs[i] & 0xFF ;// 数据的最低位在低字节
			if(temp < 0){
			temp = Byte.MAX_VALUE * 2 + 1 + temp + 1 ;
			}
			if(count > 0){
			temp <<= count * 8;
			}
			count++ ;
			s = s \| temp ;
			}
			return s;
			} else {
			throw new Exception("bytes2Long_LE时数组越界");
			}
			}
			/**
			* 大端模式《数据低位在数组高字节》
			* 无符号short类型转换成2位byte数组
			* java没有无符号短整型数据，只有有符号短整数，取值范围是-32768~32767
			* 若模拟无符号短整型数据，取值范围是0到65535 ，已经超出了java的有符号整数上限，所以只能用java的Int型表示无符号整数
			* @value bs byte[]
			*/
			public static long bytes2Long_BE(byte[] bs, int startIndex, int endIndex) throws Exception {
			boolean b = isOutOfArrLength(bs.length, endIndex);
			if (!b) {
			int count = endIndex - startIndex ;
			long s = 0;
			long temp = 0 ;
			for(int i = startIndex ; i <= endIndex ; i++){
			temp = bs[i] & 0xFF ;// 数据的最低位在低字节
			if(temp < 0){
			temp = Byte.MAX_VALUE * 2 + 1 + temp + 1 ;
			}
			if(count > 0){
			temp <<= count * 8;
			}
			count-- ;
			s = s \| temp ;
			}
			return s;
			} else {
			throw new Exception("bytes2Long_LE时数组越界");
			}
			}

			// public static long bytes2Int_BE(byte[] bs, int from) throws Exception {
			// boolean b = isOutOfArrLength(bs.length, (from - 1) + 4);
			// if (!b) {
			// long s = 0;
			// long s0 = bs[from + 0] & 0xFF ;// 数据的最高位在低字节
			// long s1 = bs[from + 1] & 0xFF ;
			// long s2 = bs[from + 2] & 0xFF ;
			// long s3 = bs[from + 3] & 0xFF ;
			//
			// // 最低位S3不变
			// s0 <<= 24;
			// s1 <<= 16;
			// s2 <<= 8;
			// s = s0 \| s1 \| s2 \| s3;
			// if(s < 0){
			// //s = Integer.MAX_VALUE -s ;
			// s = Integer.MAX_VALUE * 2 + 1 + s + 1 ;
			// }
			// return s;
			// } else {
			// throw new Exception("byte2Int时数组越界");
			// }
			// }

			/**
			* 大端模式《数据低位在数组高字节》
			* 无符号short类型转换成2位byte数组
			* java没有无符号短整型数据，只有有符号短整数，取值范围是-32768~32767
			* 若模拟无符号短整型数据，取值范围是0到65535 ，已经超出了java的有符号整数上限，所以只能用java的Int型表示无符号整数
			* @value bs byte[]
			* @value value int int类型的参数
			* @value from int
			*/
			public static void short2Bytes_BE(byte[] bs, int value, int from)throws Exception {
			int maxShortUnsigned = Integer.valueOf(Short.MAX_VALUE) * 2 + 1;
			int minShortUnsigned = Integer.valueOf(Short.MIN_VALUE) * 2 ;
			if(value < minShortUnsigned \|\| value > maxShortUnsigned ){
			throw new Exception("数据" + value + "超出了无符号short型的取值范围(" + minShortUnsigned + "~" + maxShortUnsigned + ")") ;
			}
			short temp = 0 ;
			if(value > Short.MAX_VALUE){
			temp = (Integer.valueOf(value - (Short.MAX_VALUE * 2 + 1) - 1)).shortValue() ;//(Integer.valueOf(Short.MAX_VALUE - value)).shortValue() ;
			}else{
			temp = Integer.valueOf(value).shortValue() ;
			}
			boolean b = isOutOfArrLength(bs.length, (from - 1) + 2);
			if (!b) {
			for (int i = 1; i >= 0; i--) {
			bs[from + i] = Integer.valueOf(temp & 0xff).byteValue();//将最低位保存在高字节
			temp = (short)(temp >> 8); // 向右移8位
			}
			} else {
			throw new Exception("short2Bytes时数组越界");
			}
			}
			/**
			* 小端模式《数据低位在数组低字节》
			* 与方法short2Bytes算法一样，只是把顺序反过来
			* @value bs byte[]
			* @value value int int类型的参数
			* @value from int
			*/
			public static void short2Bytes_LE(byte[] bs, int value, int from)throws Exception {
			int len = 2 ;
			int maxShortUnsigned = Integer.valueOf(Short.MAX_VALUE) * 2 + 1;
			int minShortUnsigned = Integer.valueOf(Short.MIN_VALUE) * 2 ;
			if(value < minShortUnsigned \|\| value > maxShortUnsigned ){
			throw new Exception("数据" + value + "超出了无符号short型的取值范围(" + minShortUnsigned + "~" + maxShortUnsigned + ")") ;
			}
			short temp = 0 ;
			if(value > Short.MAX_VALUE){
			temp = (Integer.valueOf(value - (Short.MAX_VALUE * 2 + 1) - 1)).shortValue() ;//(Integer.valueOf(Short.MAX_VALUE - value)).shortValue() ;
			}else{
			temp = Integer.valueOf(value).shortValue() ;
			}
			boolean b = isOutOfArrLength(bs.length, (from - 1) + len);
			if (!b) {
			for (int i = 0; i < len; i++) {
			bs[from + i] = Integer.valueOf(temp & 0xff).byteValue();//将数据低位保存在数据低字节
			temp = (short)(temp >> 8); // 向右移8位
			}
			} else {
			throw new Exception("short2Bytes时数组越界");
			}
			}

			/**
			* 大端模式《数据低位在数组高字节》
			* 2位字节数组转换为短整型
			* @param bs 字节数组
			* @param from 字节数组起始位置
			* @return 结果
			*/
			public static int bytes2Short_BE(byte[] bs, int from) throws Exception {
			boolean b = isOutOfArrLength(bs.length, (from - 1) + 2);
			if (!b) {
			int s = 0;
			int s0 = Integer.valueOf(bs[from + 0] & 0xff).shortValue();// 最低位
			int s1 = Integer.valueOf(bs[from + 1] & 0xff).shortValue();

			// 最低位S1不变
			s0 <<= 8;
			s = s0 \| s1 ;
			if(s < 0){
			s = (Short.MAX_VALUE * 2 + 1) + s + 1;
			}
			return s;
			} else {
			throw new Exception("bytes2Short时数组越界");
			}
			}

			/**
			* 小端模式《数据低位在数组低字节》
			* 与方法bytes2Short算法一样，只是把顺序反过来
			* @param bs 字节数组
			* @param from 字节数组起始位置
			* @return 结果
			*/
			public static int bytes2Short_LE(byte[] bs, int from) throws Exception {
			boolean b = isOutOfArrLength(bs.length, (from - 1) + 2);
			if (!b) {
			int s = 0;
			int s0 = Integer.valueOf(bs[from + 0] & 0xff).shortValue();// 小下标字节转数据低位
			int s1 = Integer.valueOf(bs[from + 1] & 0xff).shortValue();// 大下标字节转数据高位

			// 最低位S0不变
			s1 <<= 8;
			s = s1 \| s0 ;
			if(s < 0){
			s = (Short.MAX_VALUE * 2 + 1) + s + 1;
			}
			return s;
			} else {
			throw new Exception("bytes2Short时数组越界");
			}
			}


			/**
			* 1位字节数组转换为短整型
			* @param bs 字节数组
			* @param index 字节数组起始位置
			* @return 结果
			*/
			public static short byte2Byte(byte[] bs, int index) throws Exception {
			if (bs.length - 1 < index) {
			throw new Exception("byte2Short(byte[] bs, int index)时数组越界");
			} else {
			byte bv = (byte)(bs[index] & 0xff) ;
			short s = 0 ;
			if(bv < 0){
			s = (short)(Byte.MAX_VALUE * 2 + 1 + bv + 1) ;
			}else{
			s = bv ;
			}
			return s ;
			}
			}
			/**
			* 无符号short类型转换成1位byte
			* java没有无符号短整型数据，只有有符号短整数，取值范围是-128~127
			* 若模拟无符号短整型数据，取值范围是0到255 ，已经超出了java的有符号整数上限，所以只能用java的short型表示无符号整数
			* @value bs byte[] 字节数组
			* @value value short short类型的参数
			* @value index 起始位置
			*/
			public static void byte2Byte(byte[] bs, short value, int index)throws Exception {
			int maxShortUnsigned = Integer.valueOf(Byte.MAX_VALUE) * 2 + 1;
			int minShortUnsigned = Integer.valueOf(Byte.MIN_VALUE) * 2 ;
			if(value < minShortUnsigned \|\| value > maxShortUnsigned ){
			throw new Exception("数据" + value + "超出了无符号byte型的取值范围(" + minShortUnsigned + "~" + maxShortUnsigned + ")") ;
			}
			if (bs.length - 1 < index) {
			throw new Exception("byte2Byte(byte[] bs, short value, int index)时数组越界");
			} else {
			bs[index] = Integer.valueOf(value & 0xff).byteValue() ;
			}
			}

			/**
			* 判断所有字节是否为0xFF
			* @param bs 字节数组
			* @param index 起始位置
			* @param len 长度
			* @return 结果
			* @throws Exception
			*/
			public static boolean bytesIsAll0xFF(byte[] bs, int index, int len)throws Exception {
			int count = 0 ;
			for(int i = index; i < index + len; i++){
			if(bs[i] == (byte)0xFF){
			count++ ;
			}
			}
			return count==len?true:false ;
			}

			/**
			* 判断数组下标是否越界
			*
			* @value bsLength 数组总长度
			* @value toSite 数组偏移量
			* @return 结果
			*/
			private static boolean isOutOfArrLength(int bsLength, int toSite) {
			if (bsLength > toSite) {
			return false;
			} else {
			return true;
			}
			}
			// public static void main(String[] args) throws Exception{
			// byte[] bs = new byte[]{(byte)0x38,(byte)0x1d,(byte)0x00,(byte)0x00,(byte)0x00} ;
			// Long lg1 = ByteUtilUnsigned.bytes2Long_LE(bs, 0, 4) ;
			// Long lg2 = ByteUtilUnsigned.bytes2Long_BE(bs, 0, 4) ;
			// System.out.println(lg1);
			// System.out.println(lg2);
			// }

			public static void main(String[] args) throws Exception{
			byte[] bs = new byte[]{0x02, 0x0C} ;
			int s = ByteUtilUnsigned.bytes2Short_BE(bs, 0) ;
			System.out.println(s);
			//// int d = 123456;
			//// byte[] bs = new byte[4] ;
			//// int2Bytes_BE(bs, d, 0) ;
			//// System.out.println(ByteUtil.bytes2Hex(bs, false));
			//// long dd = bytes2Int_BE(bs, 0) ;
			//// System.out.println(dd);
			////
			//// byte[] bb = new byte[1] ;
			//// bb[0] = (byte)255 ;
			//// short s = byte2Byte(bb, 0);
			//// System.out.println(s);
			//
			// byte[] bs = new byte[]{(byte)0x00, (byte)0x00, (byte)0x3A, (byte)0x88} ;
			// //byte[] bs = new byte[]{(byte)0xff, (byte)0xff, (byte)0xff, (byte)0xff} ;
			// boolean flag = ByteUtilUnsigned.bytesIsAll0xFF(bs, 0, 4) ;
			// System.out.println(flag);
			// Long s = ByteUtilUnsigned.bytes2Int_BE(bs, 0);
			// System.out.println(s);
			//
			//
			}
			}