~whyclj/iec61850_forFoShanAES_Model.git

			@@ -1,339 +1,339 @@
			/**
			* This class file was automatically generated by jASN1 v1.9.0 (http://www.openmuc.org)
			*/

			package org.openmuc.josistack.internal.presentation.asn1;

			import java.io.IOException;
			import java.io.InputStream;
			import java.io.OutputStream;
			import java.io.Serializable;
			import java.util.ArrayList;
			import java.util.Iterator;
			import java.util.List;

			import org.openmuc.jasn1.ber.BerLength;
			import org.openmuc.jasn1.ber.BerTag;
			import org.openmuc.jasn1.ber.ReverseByteArrayOutputStream;
			import org.openmuc.jasn1.ber.types.BerInteger;

			public class ResultList implements Serializable {

			private static final long serialVersionUID = 1L;

			public static class SEQUENCE implements Serializable {

			private static final long serialVersionUID = 1L;

			public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);

			public byte[] code = null;
			private Result result = null;
			private TransferSyntaxName transferSyntaxName = null;
			private BerInteger providerReason = null;

			public SEQUENCE() {
			}

			public SEQUENCE(byte[] code) {
			this.code = code;
			}

			public void setResult(Result result) {
			this.result = result;
			}

			public Result getResult() {
			return result;
			}

			public void setTransferSyntaxName(TransferSyntaxName transferSyntaxName) {
			this.transferSyntaxName = transferSyntaxName;
			}

			public TransferSyntaxName getTransferSyntaxName() {
			return transferSyntaxName;
			}

			public void setProviderReason(BerInteger providerReason) {
			this.providerReason = providerReason;
			}

			public BerInteger getProviderReason() {
			return providerReason;
			}

			public int encode(OutputStream os) throws IOException {
			return encode(os, true);
			}

			public int encode(OutputStream os, boolean withTag) throws IOException {

			if (code != null) {
			for (int i = code.length - 1; i >= 0; i--) {
			os.write(code[i]);
			}
			if (withTag) {
			return tag.encode(os) + code.length;
			}
			return code.length;
			}

			int codeLength = 0;
			if (providerReason != null) {
			codeLength += providerReason.encode(os, false);
			// write tag: CONTEXT_CLASS, PRIMITIVE, 2
			os.write(0x82);
			codeLength += 1;
			}

			if (transferSyntaxName != null) {
			codeLength += transferSyntaxName.encode(os, false);
			// write tag: CONTEXT_CLASS, PRIMITIVE, 1
			os.write(0x81);
			codeLength += 1;
			}

			codeLength += result.encode(os, false);
			// write tag: CONTEXT_CLASS, PRIMITIVE, 0
			os.write(0x80);
			codeLength += 1;

			codeLength += BerLength.encodeLength(os, codeLength);

			if (withTag) {
			codeLength += tag.encode(os);
			}

			return codeLength;

			}

			public int decode(InputStream is) throws IOException {
			return decode(is, true);
			}

			public int decode(InputStream is, boolean withTag) throws IOException {
			int codeLength = 0;
			int subCodeLength = 0;
			BerTag berTag = new BerTag();

			if (withTag) {
			codeLength += tag.decodeAndCheck(is);
			}

			BerLength length = new BerLength();
			codeLength += length.decode(is);

			int totalLength = length.val;
			codeLength += totalLength;

			subCodeLength += berTag.decode(is);
			if (berTag.equals(BerTag.CONTEXT_CLASS, BerTag.PRIMITIVE, 0)) {
			result = new Result();
			subCodeLength += result.decode(is, false);
			if (subCodeLength == totalLength) {
			return codeLength;
			}
			subCodeLength += berTag.decode(is);
			}
			else {
			throw new IOException("Tag does not match the mandatory sequence element tag.");
			}

			if (berTag.equals(BerTag.CONTEXT_CLASS, BerTag.PRIMITIVE, 1)) {
			transferSyntaxName = new TransferSyntaxName();
			subCodeLength += transferSyntaxName.decode(is, false);
			if (subCodeLength == totalLength) {
			return codeLength;
			}
			subCodeLength += berTag.decode(is);
			}

			if (berTag.equals(BerTag.CONTEXT_CLASS, BerTag.PRIMITIVE, 2)) {
			providerReason = new BerInteger();
			subCodeLength += providerReason.decode(is, false);
			if (subCodeLength == totalLength) {
			return codeLength;
			}
			}
			throw new IOException("Unexpected end of sequence, length tag: " + totalLength
			+ ", actual sequence length: " + subCodeLength);

			}

			public void encodeAndSave(int encodingSizeGuess) throws IOException {
			ReverseByteArrayOutputStream os = new ReverseByteArrayOutputStream(encodingSizeGuess);
			encode(os, false);
			code = os.getArray();
			}

			@Override
			public String toString() {
			StringBuilder sb = new StringBuilder();
			appendAsString(sb, 0);
			return sb.toString();
			}

			public void appendAsString(StringBuilder sb, int indentLevel) {

			sb.append("{");
			sb.append("\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			if (result != null) {
			sb.append("result: ").append(result);
			}
			else {
			sb.append("result: <empty-required-field>");
			}

			if (transferSyntaxName != null) {
			sb.append(",\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			sb.append("transferSyntaxName: ").append(transferSyntaxName);
			}

			if (providerReason != null) {
			sb.append(",\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			sb.append("providerReason: ").append(providerReason);
			}

			sb.append("\n");
			for (int i = 0; i < indentLevel; i++) {
			sb.append("\t");
			}
			sb.append("}");
			}

			}

			public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);
			public byte[] code = null;
			private List<SEQUENCE> seqOf = null;

			public ResultList() {
			seqOf = new ArrayList<>();
			}

			public ResultList(byte[] code) {
			this.code = code;
			}

			public List<SEQUENCE> getSEQUENCE() {
			if (seqOf == null) {
			seqOf = new ArrayList<>();
			}
			return seqOf;
			}

			public int encode(OutputStream os) throws IOException {
			return encode(os, true);
			}

			public int encode(OutputStream os, boolean withTag) throws IOException {

			if (code != null) {
			for (int i = code.length - 1; i >= 0; i--) {
			os.write(code[i]);
			}
			if (withTag) {
			return tag.encode(os) + code.length;
			}
			return code.length;
			}

			int codeLength = 0;
			for (int i = (seqOf.size() - 1); i >= 0; i--) {
			codeLength += seqOf.get(i).encode(os, true);
			}

			codeLength += BerLength.encodeLength(os, codeLength);

			if (withTag) {
			codeLength += tag.encode(os);
			}

			return codeLength;
			}

			public int decode(InputStream is) throws IOException {
			return decode(is, true);
			}

			public int decode(InputStream is, boolean withTag) throws IOException {
			int codeLength = 0;
			int subCodeLength = 0;
			if (withTag) {
			codeLength += tag.decodeAndCheck(is);
			}

			BerLength length = new BerLength();
			codeLength += length.decode(is);
			int totalLength = length.val;

			while (subCodeLength < totalLength) {
			SEQUENCE element = new SEQUENCE();
			subCodeLength += element.decode(is, true);
			seqOf.add(element);
			}
			if (subCodeLength != totalLength) {
			throw new IOException("Decoded SequenceOf or SetOf has wrong length. Expected " + totalLength + " but has "
			+ subCodeLength);

			}
			codeLength += subCodeLength;

			return codeLength;
			}

			public void encodeAndSave(int encodingSizeGuess) throws IOException {
			ReverseByteArrayOutputStream os = new ReverseByteArrayOutputStream(encodingSizeGuess);
			encode(os, false);
			code = os.getArray();
			}

			@Override
			public String toString() {
			StringBuilder sb = new StringBuilder();
			appendAsString(sb, 0);
			return sb.toString();
			}

			public void appendAsString(StringBuilder sb, int indentLevel) {

			sb.append("{\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			if (seqOf == null) {
			sb.append("null");
			}
			else {
			Iterator<SEQUENCE> it = seqOf.iterator();
			if (it.hasNext()) {
			it.next().appendAsString(sb, indentLevel + 1);
			while (it.hasNext()) {
			sb.append(",\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			it.next().appendAsString(sb, indentLevel + 1);
			}
			}
			}

			sb.append("\n");
			for (int i = 0; i < indentLevel; i++) {
			sb.append("\t");
			}
			sb.append("}");
			}

			}
			/**
			* This class file was automatically generated by jASN1 v1.9.0 (http://www.openmuc.org)
			*/

			package org.openmuc.josistack.internal.presentation.asn1;

			import java.io.IOException;
			import java.io.InputStream;
			import java.io.OutputStream;
			import java.io.Serializable;
			import java.util.ArrayList;
			import java.util.Iterator;
			import java.util.List;

			import org.openmuc.jasn1.ber.BerLength;
			import org.openmuc.jasn1.ber.BerTag;
			import org.openmuc.jasn1.ber.ReverseByteArrayOutputStream;
			import org.openmuc.jasn1.ber.types.BerInteger;

			public class ResultList implements Serializable {

			private static final long serialVersionUID = 1L;

			public static class SEQUENCE implements Serializable {

			private static final long serialVersionUID = 1L;

			public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);

			public byte[] code = null;
			private Result result = null;
			private TransferSyntaxName transferSyntaxName = null;
			private BerInteger providerReason = null;

			public SEQUENCE() {
			}

			public SEQUENCE(byte[] code) {
			this.code = code;
			}

			public void setResult(Result result) {
			this.result = result;
			}

			public Result getResult() {
			return result;
			}

			public void setTransferSyntaxName(TransferSyntaxName transferSyntaxName) {
			this.transferSyntaxName = transferSyntaxName;
			}

			public TransferSyntaxName getTransferSyntaxName() {
			return transferSyntaxName;
			}

			public void setProviderReason(BerInteger providerReason) {
			this.providerReason = providerReason;
			}

			public BerInteger getProviderReason() {
			return providerReason;
			}

			public int encode(OutputStream os) throws IOException {
			return encode(os, true);
			}

			public int encode(OutputStream os, boolean withTag) throws IOException {

			if (code != null) {
			for (int i = code.length - 1; i >= 0; i--) {
			os.write(code[i]);
			}
			if (withTag) {
			return tag.encode(os) + code.length;
			}
			return code.length;
			}

			int codeLength = 0;
			if (providerReason != null) {
			codeLength += providerReason.encode(os, false);
			// write tag: CONTEXT_CLASS, PRIMITIVE, 2
			os.write(0x82);
			codeLength += 1;
			}

			if (transferSyntaxName != null) {
			codeLength += transferSyntaxName.encode(os, false);
			// write tag: CONTEXT_CLASS, PRIMITIVE, 1
			os.write(0x81);
			codeLength += 1;
			}

			codeLength += result.encode(os, false);
			// write tag: CONTEXT_CLASS, PRIMITIVE, 0
			os.write(0x80);
			codeLength += 1;

			codeLength += BerLength.encodeLength(os, codeLength);

			if (withTag) {
			codeLength += tag.encode(os);
			}

			return codeLength;

			}

			public int decode(InputStream is) throws IOException {
			return decode(is, true);
			}

			public int decode(InputStream is, boolean withTag) throws IOException {
			int codeLength = 0;
			int subCodeLength = 0;
			BerTag berTag = new BerTag();

			if (withTag) {
			codeLength += tag.decodeAndCheck(is);
			}

			BerLength length = new BerLength();
			codeLength += length.decode(is);

			int totalLength = length.val;
			codeLength += totalLength;

			subCodeLength += berTag.decode(is);
			if (berTag.equals(BerTag.CONTEXT_CLASS, BerTag.PRIMITIVE, 0)) {
			result = new Result();
			subCodeLength += result.decode(is, false);
			if (subCodeLength == totalLength) {
			return codeLength;
			}
			subCodeLength += berTag.decode(is);
			}
			else {
			throw new IOException("Tag does not match the mandatory sequence element tag.");
			}

			if (berTag.equals(BerTag.CONTEXT_CLASS, BerTag.PRIMITIVE, 1)) {
			transferSyntaxName = new TransferSyntaxName();
			subCodeLength += transferSyntaxName.decode(is, false);
			if (subCodeLength == totalLength) {
			return codeLength;
			}
			subCodeLength += berTag.decode(is);
			}

			if (berTag.equals(BerTag.CONTEXT_CLASS, BerTag.PRIMITIVE, 2)) {
			providerReason = new BerInteger();
			subCodeLength += providerReason.decode(is, false);
			if (subCodeLength == totalLength) {
			return codeLength;
			}
			}
			throw new IOException("Unexpected end of sequence, length tag: " + totalLength
			+ ", actual sequence length: " + subCodeLength);

			}

			public void encodeAndSave(int encodingSizeGuess) throws IOException {
			ReverseByteArrayOutputStream os = new ReverseByteArrayOutputStream(encodingSizeGuess);
			encode(os, false);
			code = os.getArray();
			}

			@Override
			public String toString() {
			StringBuilder sb = new StringBuilder();
			appendAsString(sb, 0);
			return sb.toString();
			}

			public void appendAsString(StringBuilder sb, int indentLevel) {

			sb.append("{");
			sb.append("\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			if (result != null) {
			sb.append("result: ").append(result);
			}
			else {
			sb.append("result: <empty-required-field>");
			}

			if (transferSyntaxName != null) {
			sb.append(",\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			sb.append("transferSyntaxName: ").append(transferSyntaxName);
			}

			if (providerReason != null) {
			sb.append(",\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			sb.append("providerReason: ").append(providerReason);
			}

			sb.append("\n");
			for (int i = 0; i < indentLevel; i++) {
			sb.append("\t");
			}
			sb.append("}");
			}

			}

			public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);
			public byte[] code = null;
			private List<SEQUENCE> seqOf = null;

			public ResultList() {
			seqOf = new ArrayList<>();
			}

			public ResultList(byte[] code) {
			this.code = code;
			}

			public List<SEQUENCE> getSEQUENCE() {
			if (seqOf == null) {
			seqOf = new ArrayList<>();
			}
			return seqOf;
			}

			public int encode(OutputStream os) throws IOException {
			return encode(os, true);
			}

			public int encode(OutputStream os, boolean withTag) throws IOException {

			if (code != null) {
			for (int i = code.length - 1; i >= 0; i--) {
			os.write(code[i]);
			}
			if (withTag) {
			return tag.encode(os) + code.length;
			}
			return code.length;
			}

			int codeLength = 0;
			for (int i = (seqOf.size() - 1); i >= 0; i--) {
			codeLength += seqOf.get(i).encode(os, true);
			}

			codeLength += BerLength.encodeLength(os, codeLength);

			if (withTag) {
			codeLength += tag.encode(os);
			}

			return codeLength;
			}

			public int decode(InputStream is) throws IOException {
			return decode(is, true);
			}

			public int decode(InputStream is, boolean withTag) throws IOException {
			int codeLength = 0;
			int subCodeLength = 0;
			if (withTag) {
			codeLength += tag.decodeAndCheck(is);
			}

			BerLength length = new BerLength();
			codeLength += length.decode(is);
			int totalLength = length.val;

			while (subCodeLength < totalLength) {
			SEQUENCE element = new SEQUENCE();
			subCodeLength += element.decode(is, true);
			seqOf.add(element);
			}
			if (subCodeLength != totalLength) {
			throw new IOException("Decoded SequenceOf or SetOf has wrong length. Expected " + totalLength + " but has "
			+ subCodeLength);

			}
			codeLength += subCodeLength;

			return codeLength;
			}

			public void encodeAndSave(int encodingSizeGuess) throws IOException {
			ReverseByteArrayOutputStream os = new ReverseByteArrayOutputStream(encodingSizeGuess);
			encode(os, false);
			code = os.getArray();
			}

			@Override
			public String toString() {
			StringBuilder sb = new StringBuilder();
			appendAsString(sb, 0);
			return sb.toString();
			}

			public void appendAsString(StringBuilder sb, int indentLevel) {

			sb.append("{\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			if (seqOf == null) {
			sb.append("null");
			}
			else {
			Iterator<SEQUENCE> it = seqOf.iterator();
			if (it.hasNext()) {
			it.next().appendAsString(sb, indentLevel + 1);
			while (it.hasNext()) {
			sb.append(",\n");
			for (int i = 0; i < indentLevel + 1; i++) {
			sb.append("\t");
			}
			it.next().appendAsString(sb, indentLevel + 1);
			}
			}
			}

			sb.append("\n");
			for (int i = 0; i < indentLevel; i++) {
			sb.append("\t");
			}
			sb.append("}");
			}

			}