apps/xran/src/main/java/org.onosproject.xran/asn1lib/api/MeasObject.java - xran-controller - Gitiles

 /**
  * This class file was automatically generated by jASN1 v1.8.2 (http://www.openmuc.org)
  */

 package org.onosproject.xran.asn1lib.api;

 import com.fasterxml.jackson.annotation.JsonIgnore;
 import org.onosproject.xran.asn1lib.ber.BerByteArrayOutputStream;
 import org.onosproject.xran.asn1lib.ber.BerLength;
 import org.onosproject.xran.asn1lib.ber.BerTag;

 import java.io.IOException;
 import java.io.InputStream;
 import java.io.Serializable;


 public class MeasObject implements Serializable {

     public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);
     private static final long serialVersionUID = 1L;
     @JsonIgnore
     public byte[] code = null;
     private ARFCNValue dlFreq = null;
     private MeasCells measCells = null;
     public MeasObject() {
     }

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

     public ARFCNValue getDlFreq() {
         return dlFreq;
     }

     public void setDlFreq(ARFCNValue dlFreq) {
         this.dlFreq = dlFreq;
     }

     public MeasCells getMeasCells() {
         return measCells;
     }

     public void setMeasCells(MeasCells measCells) {
         this.measCells = measCells;
     }

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

     public int encode(BerByteArrayOutputStream 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 (measCells != null) {
             codeLength += measCells.encode(os, false);
             // write tag: CONTEXT_CLASS, CONSTRUCTED, 1
             os.write(0xA1);
             codeLength += 1;
         }

         codeLength += dlFreq.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)) {
             dlFreq = new ARFCNValue();
             subCodeLength += dlFreq.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.CONSTRUCTED, 1)) {
             measCells = new MeasCells();
             subCodeLength += measCells.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 {
         BerByteArrayOutputStream os = new BerByteArrayOutputStream(encodingSizeGuess);
         encode(os, false);
         code = os.getArray();
     }

     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 (dlFreq != null) {
             sb.append("dlFreq: ").append(dlFreq);
         } else {
             sb.append("dlFreq: <empty-required-field>");
         }

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

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

     public static class MeasCells implements Serializable {

         public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);
         private static final long serialVersionUID = 1L;
         @JsonIgnore
         public byte[] code = null;
         private PhysCellId pci = null;
         private QOffsetRange cellIndividualOffset = null;

         public MeasCells() {
         }

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

         public PhysCellId getPci() {
             return pci;
         }

         public void setPci(PhysCellId pci) {
             this.pci = pci;
         }

         public QOffsetRange getCellIndividualOffset() {
             return cellIndividualOffset;
         }

         public void setCellIndividualOffset(QOffsetRange cellIndividualOffset) {
             this.cellIndividualOffset = cellIndividualOffset;
         }

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

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

             codeLength += pci.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)) {
                 pci = new PhysCellId();
                 subCodeLength += pci.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)) {
                 cellIndividualOffset = new QOffsetRange();
                 subCodeLength += cellIndividualOffset.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 {
             BerByteArrayOutputStream os = new BerByteArrayOutputStream(encodingSizeGuess);
             encode(os, false);
             code = os.getArray();
         }

         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 (pci != null) {
                 sb.append("pci: ").append(pci);
             } else {
                 sb.append("pci: <empty-required-field>");
             }

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

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

     }

 }
	/**
	* This class file was automatically generated by jASN1 v1.8.2 (http://www.openmuc.org)
	*/

	package org.onosproject.xran.asn1lib.api;

	import com.fasterxml.jackson.annotation.JsonIgnore;
	import org.onosproject.xran.asn1lib.ber.BerByteArrayOutputStream;
	import org.onosproject.xran.asn1lib.ber.BerLength;
	import org.onosproject.xran.asn1lib.ber.BerTag;

	import java.io.IOException;
	import java.io.InputStream;
	import java.io.Serializable;


	public class MeasObject implements Serializable {

	public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);
	private static final long serialVersionUID = 1L;
	@JsonIgnore
	public byte[] code = null;
	private ARFCNValue dlFreq = null;
	private MeasCells measCells = null;
	public MeasObject() {
	}

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

	public ARFCNValue getDlFreq() {
	return dlFreq;
	}

	public void setDlFreq(ARFCNValue dlFreq) {
	this.dlFreq = dlFreq;
	}

	public MeasCells getMeasCells() {
	return measCells;
	}

	public void setMeasCells(MeasCells measCells) {
	this.measCells = measCells;
	}

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

	public int encode(BerByteArrayOutputStream 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 (measCells != null) {
	codeLength += measCells.encode(os, false);
	// write tag: CONTEXT_CLASS, CONSTRUCTED, 1
	os.write(0xA1);
	codeLength += 1;
	}

	codeLength += dlFreq.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)) {
	dlFreq = new ARFCNValue();
	subCodeLength += dlFreq.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.CONSTRUCTED, 1)) {
	measCells = new MeasCells();
	subCodeLength += measCells.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 {
	BerByteArrayOutputStream os = new BerByteArrayOutputStream(encodingSizeGuess);
	encode(os, false);
	code = os.getArray();
	}

	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 (dlFreq != null) {
	sb.append("dlFreq: ").append(dlFreq);
	} else {
	sb.append("dlFreq: <empty-required-field>");
	}

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

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

	public static class MeasCells implements Serializable {

	public static final BerTag tag = new BerTag(BerTag.UNIVERSAL_CLASS, BerTag.CONSTRUCTED, 16);
	private static final long serialVersionUID = 1L;
	@JsonIgnore
	public byte[] code = null;
	private PhysCellId pci = null;
	private QOffsetRange cellIndividualOffset = null;

	public MeasCells() {
	}

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

	public PhysCellId getPci() {
	return pci;
	}

	public void setPci(PhysCellId pci) {
	this.pci = pci;
	}

	public QOffsetRange getCellIndividualOffset() {
	return cellIndividualOffset;
	}

	public void setCellIndividualOffset(QOffsetRange cellIndividualOffset) {
	this.cellIndividualOffset = cellIndividualOffset;
	}

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

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

	codeLength += pci.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)) {
	pci = new PhysCellId();
	subCodeLength += pci.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)) {
	cellIndividualOffset = new QOffsetRange();
	subCodeLength += cellIndividualOffset.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 {
	BerByteArrayOutputStream os = new BerByteArrayOutputStream(encodingSizeGuess);
	encode(os, false);
	code = os.getArray();
	}

	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 (pci != null) {
	sb.append("pci: ").append(pci);
	} else {
	sb.append("pci: <empty-required-field>");
	}

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

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

	}

	}