tests/tests/location/src/android/location/cts/asn1/supl2/ulp_components/GsmCellInformation.java - platform/cts - Git at Google

 /*
  * Copyright (C) 2017 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.location.cts.asn1.supl2.ulp_components;

 /*
  */


 //
 //
 import android.location.cts.asn1.base.Asn1Integer;
 import android.location.cts.asn1.base.Asn1Null;
 import android.location.cts.asn1.base.Asn1Object;
 import android.location.cts.asn1.base.Asn1Sequence;
 import android.location.cts.asn1.base.Asn1Tag;
 import android.location.cts.asn1.base.BitStream;
 import android.location.cts.asn1.base.BitStreamReader;
 import android.location.cts.asn1.base.SequenceComponent;
 import com.google.common.collect.ImmutableList;
 import java.util.Collection;
 import javax.annotation.Nullable;


 /**
 */
 public  class GsmCellInformation extends Asn1Sequence {
   //

   private static final Asn1Tag TAG_GsmCellInformation
       = Asn1Tag.fromClassAndNumber(-1, -1);

   public GsmCellInformation() {
     super();
   }

   @Override
   @Nullable
   protected Asn1Tag getTag() {
     return TAG_GsmCellInformation;
   }

   @Override
   protected boolean isTagImplicit() {
     return true;
   }

   public static Collection<Asn1Tag> getPossibleFirstTags() {
     if (TAG_GsmCellInformation != null) {
       return ImmutableList.of(TAG_GsmCellInformation);
     } else {
       return Asn1Sequence.getPossibleFirstTags();
     }
   }

   /**
    * Creates a new GsmCellInformation from encoded stream.
    */
   public static GsmCellInformation fromPerUnaligned(byte[] encodedBytes) {
     GsmCellInformation result = new GsmCellInformation();
     result.decodePerUnaligned(new BitStreamReader(encodedBytes));
     return result;
   }

   /**
    * Creates a new GsmCellInformation from encoded stream.
    */
   public static GsmCellInformation fromPerAligned(byte[] encodedBytes) {
     GsmCellInformation result = new GsmCellInformation();
     result.decodePerAligned(new BitStreamReader(encodedBytes));
     return result;
   }


   @Override protected boolean isExtensible() {
     return true;
   }

   @Override public boolean containsExtensionValues() {
     for (SequenceComponent extensionComponent : getExtensionComponents()) {
       if (extensionComponent.isExplicitlySet()) return true;
     }
     return false;
   }


   private GsmCellInformation.refMCCType refMCC_;
   public GsmCellInformation.refMCCType getRefMCC() {
     return refMCC_;
   }
   /**
    * @throws ClassCastException if value is not a GsmCellInformation.refMCCType
    */
   public void setRefMCC(Asn1Object value) {
     this.refMCC_ = (GsmCellInformation.refMCCType) value;
   }
   public GsmCellInformation.refMCCType setRefMCCToNewInstance() {
     refMCC_ = new GsmCellInformation.refMCCType();
     return refMCC_;
   }

   private GsmCellInformation.refMNCType refMNC_;
   public GsmCellInformation.refMNCType getRefMNC() {
     return refMNC_;
   }
   /**
    * @throws ClassCastException if value is not a GsmCellInformation.refMNCType
    */
   public void setRefMNC(Asn1Object value) {
     this.refMNC_ = (GsmCellInformation.refMNCType) value;
   }
   public GsmCellInformation.refMNCType setRefMNCToNewInstance() {
     refMNC_ = new GsmCellInformation.refMNCType();
     return refMNC_;
   }

   private GsmCellInformation.refLACType refLAC_;
   public GsmCellInformation.refLACType getRefLAC() {
     return refLAC_;
   }
   /**
    * @throws ClassCastException if value is not a GsmCellInformation.refLACType
    */
   public void setRefLAC(Asn1Object value) {
     this.refLAC_ = (GsmCellInformation.refLACType) value;
   }
   public GsmCellInformation.refLACType setRefLACToNewInstance() {
     refLAC_ = new GsmCellInformation.refLACType();
     return refLAC_;
   }

   private GsmCellInformation.refCIType refCI_;
   public GsmCellInformation.refCIType getRefCI() {
     return refCI_;
   }
   /**
    * @throws ClassCastException if value is not a GsmCellInformation.refCIType
    */
   public void setRefCI(Asn1Object value) {
     this.refCI_ = (GsmCellInformation.refCIType) value;
   }
   public GsmCellInformation.refCIType setRefCIToNewInstance() {
     refCI_ = new GsmCellInformation.refCIType();
     return refCI_;
   }

   private NMR nMR_;
   public NMR getNMR() {
     return nMR_;
   }
   /**
    * @throws ClassCastException if value is not a NMR
    */
   public void setNMR(Asn1Object value) {
     this.nMR_ = (NMR) value;
   }
   public NMR setNMRToNewInstance() {
     nMR_ = new NMR();
     return nMR_;
   }

   private GsmCellInformation.tAType tA_;
   public GsmCellInformation.tAType getTA() {
     return tA_;
   }
   /**
    * @throws ClassCastException if value is not a GsmCellInformation.tAType
    */
   public void setTA(Asn1Object value) {
     this.tA_ = (GsmCellInformation.tAType) value;
   }
   public GsmCellInformation.tAType setTAToNewInstance() {
     tA_ = new GsmCellInformation.tAType();
     return tA_;
   }


   @Override public Iterable<? extends SequenceComponent> getComponents() {
     ImmutableList.Builder<SequenceComponent> builder = ImmutableList.builder();

     builder.add(new SequenceComponent() {
           Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 0);

           @Override public boolean isExplicitlySet() {
             return getRefMCC() != null;
           }

           @Override public boolean hasDefaultValue() {
             return false;
           }

           @Override public boolean isOptional() {
             return false;
           }

           @Override public Asn1Object getComponentValue() {
             return getRefMCC();
           }

           @Override public void setToNewInstance() {
             setRefMCCToNewInstance();
           }

           @Override public Collection<Asn1Tag> getPossibleFirstTags() {
             return tag == null ? GsmCellInformation.refMCCType.getPossibleFirstTags() : ImmutableList.of(tag);
           }

           @Override
           public Asn1Tag getTag() {
             return tag;
           }

           @Override
           public boolean isImplicitTagging() {
             return true;
           }

           @Override public String toIndentedString(String indent) {
                 return "refMCC : "
                     + getRefMCC().toIndentedString(indent);
               }
         });

     builder.add(new SequenceComponent() {
           Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 1);

           @Override public boolean isExplicitlySet() {
             return getRefMNC() != null;
           }

           @Override public boolean hasDefaultValue() {
             return false;
           }

           @Override public boolean isOptional() {
             return false;
           }

           @Override public Asn1Object getComponentValue() {
             return getRefMNC();
           }

           @Override public void setToNewInstance() {
             setRefMNCToNewInstance();
           }

           @Override public Collection<Asn1Tag> getPossibleFirstTags() {
             return tag == null ? GsmCellInformation.refMNCType.getPossibleFirstTags() : ImmutableList.of(tag);
           }

           @Override
           public Asn1Tag getTag() {
             return tag;
           }

           @Override
           public boolean isImplicitTagging() {
             return true;
           }

           @Override public String toIndentedString(String indent) {
                 return "refMNC : "
                     + getRefMNC().toIndentedString(indent);
               }
         });

     builder.add(new SequenceComponent() {
           Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 2);

           @Override public boolean isExplicitlySet() {
             return getRefLAC() != null;
           }

           @Override public boolean hasDefaultValue() {
             return false;
           }

           @Override public boolean isOptional() {
             return false;
           }

           @Override public Asn1Object getComponentValue() {
             return getRefLAC();
           }

           @Override public void setToNewInstance() {
             setRefLACToNewInstance();
           }

           @Override public Collection<Asn1Tag> getPossibleFirstTags() {
             return tag == null ? GsmCellInformation.refLACType.getPossibleFirstTags() : ImmutableList.of(tag);
           }

           @Override
           public Asn1Tag getTag() {
             return tag;
           }

           @Override
           public boolean isImplicitTagging() {
             return true;
           }

           @Override public String toIndentedString(String indent) {
                 return "refLAC : "
                     + getRefLAC().toIndentedString(indent);
               }
         });

     builder.add(new SequenceComponent() {
           Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 3);

           @Override public boolean isExplicitlySet() {
             return getRefCI() != null;
           }

           @Override public boolean hasDefaultValue() {
             return false;
           }

           @Override public boolean isOptional() {
             return false;
           }

           @Override public Asn1Object getComponentValue() {
             return getRefCI();
           }

           @Override public void setToNewInstance() {
             setRefCIToNewInstance();
           }

           @Override public Collection<Asn1Tag> getPossibleFirstTags() {
             return tag == null ? GsmCellInformation.refCIType.getPossibleFirstTags() : ImmutableList.of(tag);
           }

           @Override
           public Asn1Tag getTag() {
             return tag;
           }

           @Override
           public boolean isImplicitTagging() {
             return true;
           }

           @Override public String toIndentedString(String indent) {
                 return "refCI : "
                     + getRefCI().toIndentedString(indent);
               }
         });

     builder.add(new SequenceComponent() {
           Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 4);

           @Override public boolean isExplicitlySet() {
             return getNMR() != null;
           }

           @Override public boolean hasDefaultValue() {
             return false;
           }

           @Override public boolean isOptional() {
             return true;
           }

           @Override public Asn1Object getComponentValue() {
             return getNMR();
           }

           @Override public void setToNewInstance() {
             setNMRToNewInstance();
           }

           @Override public Collection<Asn1Tag> getPossibleFirstTags() {
             return tag == null ? NMR.getPossibleFirstTags() : ImmutableList.of(tag);
           }

           @Override
           public Asn1Tag getTag() {
             return tag;
           }

           @Override
           public boolean isImplicitTagging() {
             return true;
           }

           @Override public String toIndentedString(String indent) {
                 return "nMR : "
                     + getNMR().toIndentedString(indent);
               }
         });

     builder.add(new SequenceComponent() {
           Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 5);

           @Override public boolean isExplicitlySet() {
             return getTA() != null;
           }

           @Override public boolean hasDefaultValue() {
             return false;
           }

           @Override public boolean isOptional() {
             return true;
           }

           @Override public Asn1Object getComponentValue() {
             return getTA();
           }

           @Override public void setToNewInstance() {
             setTAToNewInstance();
           }

           @Override public Collection<Asn1Tag> getPossibleFirstTags() {
             return tag == null ? GsmCellInformation.tAType.getPossibleFirstTags() : ImmutableList.of(tag);
           }

           @Override
           public Asn1Tag getTag() {
             return tag;
           }

           @Override
           public boolean isImplicitTagging() {
             return true;
           }

           @Override public String toIndentedString(String indent) {
                 return "tA : "
                     + getTA().toIndentedString(indent);
               }
         });

     return builder.build();
   }

   @Override public Iterable<? extends SequenceComponent>
                                                     getExtensionComponents() {
     ImmutableList.Builder<SequenceComponent> builder = ImmutableList.builder();

       return builder.build();
     }


 /*
  */


 //

 /**
  */
 public static class refMCCType extends Asn1Integer {
   //

   private static final Asn1Tag TAG_refMCCType
       = Asn1Tag.fromClassAndNumber(-1, -1);

   public refMCCType() {
     super();
     setValueRange("0", "999");

   }

   @Override
   @Nullable
   protected Asn1Tag getTag() {
     return TAG_refMCCType;
   }

   @Override
   protected boolean isTagImplicit() {
     return true;
   }

   public static Collection<Asn1Tag> getPossibleFirstTags() {
     if (TAG_refMCCType != null) {
       return ImmutableList.of(TAG_refMCCType);
     } else {
       return Asn1Integer.getPossibleFirstTags();
     }
   }

   /**
    * Creates a new refMCCType from encoded stream.
    */
   public static refMCCType fromPerUnaligned(byte[] encodedBytes) {
     refMCCType result = new refMCCType();
     result.decodePerUnaligned(new BitStreamReader(encodedBytes));
     return result;
   }

   /**
    * Creates a new refMCCType from encoded stream.
    */
   public static refMCCType fromPerAligned(byte[] encodedBytes) {
     refMCCType result = new refMCCType();
     result.decodePerAligned(new BitStreamReader(encodedBytes));
     return result;
   }

   @Override public Iterable<BitStream> encodePerUnaligned() {
     return super.encodePerUnaligned();
   }

   @Override public Iterable<BitStream> encodePerAligned() {
     return super.encodePerAligned();
   }

   @Override public void decodePerUnaligned(BitStreamReader reader) {
     super.decodePerUnaligned(reader);
   }

   @Override public void decodePerAligned(BitStreamReader reader) {
     super.decodePerAligned(reader);
   }

   @Override public String toString() {
     return toIndentedString("");
   }

   public String toIndentedString(String indent) {
     return "refMCCType = " + getInteger() + ";\n";
   }
 }


 /*
  */


 //

 /**
  */
 public static class refMNCType extends Asn1Integer {
   //

   private static final Asn1Tag TAG_refMNCType
       = Asn1Tag.fromClassAndNumber(-1, -1);

   public refMNCType() {
     super();
     setValueRange("0", "999");

   }

   @Override
   @Nullable
   protected Asn1Tag getTag() {
     return TAG_refMNCType;
   }

   @Override
   protected boolean isTagImplicit() {
     return true;
   }

   public static Collection<Asn1Tag> getPossibleFirstTags() {
     if (TAG_refMNCType != null) {
       return ImmutableList.of(TAG_refMNCType);
     } else {
       return Asn1Integer.getPossibleFirstTags();
     }
   }

   /**
    * Creates a new refMNCType from encoded stream.
    */
   public static refMNCType fromPerUnaligned(byte[] encodedBytes) {
     refMNCType result = new refMNCType();
     result.decodePerUnaligned(new BitStreamReader(encodedBytes));
     return result;
   }

   /**
    * Creates a new refMNCType from encoded stream.
    */
   public static refMNCType fromPerAligned(byte[] encodedBytes) {
     refMNCType result = new refMNCType();
     result.decodePerAligned(new BitStreamReader(encodedBytes));
     return result;
   }

   @Override public Iterable<BitStream> encodePerUnaligned() {
     return super.encodePerUnaligned();
   }

   @Override public Iterable<BitStream> encodePerAligned() {
     return super.encodePerAligned();
   }

   @Override public void decodePerUnaligned(BitStreamReader reader) {
     super.decodePerUnaligned(reader);
   }

   @Override public void decodePerAligned(BitStreamReader reader) {
     super.decodePerAligned(reader);
   }

   @Override public String toString() {
     return toIndentedString("");
   }

   public String toIndentedString(String indent) {
     return "refMNCType = " + getInteger() + ";\n";
   }
 }


 /*
  */


 //

 /**
  */
 public static class refLACType extends Asn1Integer {
   //

   private static final Asn1Tag TAG_refLACType
       = Asn1Tag.fromClassAndNumber(-1, -1);

   public refLACType() {
     super();
     setValueRange("0", "65535");

   }

   @Override
   @Nullable
   protected Asn1Tag getTag() {
     return TAG_refLACType;
   }

   @Override
   protected boolean isTagImplicit() {
     return true;
   }

   public static Collection<Asn1Tag> getPossibleFirstTags() {
     if (TAG_refLACType != null) {
       return ImmutableList.of(TAG_refLACType);
     } else {
       return Asn1Integer.getPossibleFirstTags();
     }
   }

   /**
    * Creates a new refLACType from encoded stream.
    */
   public static refLACType fromPerUnaligned(byte[] encodedBytes) {
     refLACType result = new refLACType();
     result.decodePerUnaligned(new BitStreamReader(encodedBytes));
     return result;
   }

   /**
    * Creates a new refLACType from encoded stream.
    */
   public static refLACType fromPerAligned(byte[] encodedBytes) {
     refLACType result = new refLACType();
     result.decodePerAligned(new BitStreamReader(encodedBytes));
     return result;
   }

   @Override public Iterable<BitStream> encodePerUnaligned() {
     return super.encodePerUnaligned();
   }

   @Override public Iterable<BitStream> encodePerAligned() {
     return super.encodePerAligned();
   }

   @Override public void decodePerUnaligned(BitStreamReader reader) {
     super.decodePerUnaligned(reader);
   }

   @Override public void decodePerAligned(BitStreamReader reader) {
     super.decodePerAligned(reader);
   }

   @Override public String toString() {
     return toIndentedString("");
   }

   public String toIndentedString(String indent) {
     return "refLACType = " + getInteger() + ";\n";
   }
 }


 /*
  */


 //

 /**
  */
 public static class refCIType extends Asn1Integer {
   //

   private static final Asn1Tag TAG_refCIType
       = Asn1Tag.fromClassAndNumber(-1, -1);

   public refCIType() {
     super();
     setValueRange("0", "65535");

   }

   @Override
   @Nullable
   protected Asn1Tag getTag() {
     return TAG_refCIType;
   }

   @Override
   protected boolean isTagImplicit() {
     return true;
   }

   public static Collection<Asn1Tag> getPossibleFirstTags() {
     if (TAG_refCIType != null) {
       return ImmutableList.of(TAG_refCIType);
     } else {
       return Asn1Integer.getPossibleFirstTags();
     }
   }

   /**
    * Creates a new refCIType from encoded stream.
    */
   public static refCIType fromPerUnaligned(byte[] encodedBytes) {
     refCIType result = new refCIType();
     result.decodePerUnaligned(new BitStreamReader(encodedBytes));
     return result;
   }

   /**
    * Creates a new refCIType from encoded stream.
    */
   public static refCIType fromPerAligned(byte[] encodedBytes) {
     refCIType result = new refCIType();
     result.decodePerAligned(new BitStreamReader(encodedBytes));
     return result;
   }

   @Override public Iterable<BitStream> encodePerUnaligned() {
     return super.encodePerUnaligned();
   }

   @Override public Iterable<BitStream> encodePerAligned() {
     return super.encodePerAligned();
   }

   @Override public void decodePerUnaligned(BitStreamReader reader) {
     super.decodePerUnaligned(reader);
   }

   @Override public void decodePerAligned(BitStreamReader reader) {
     super.decodePerAligned(reader);
   }

   @Override public String toString() {
     return toIndentedString("");
   }

   public String toIndentedString(String indent) {
     return "refCIType = " + getInteger() + ";\n";
   }
 }


 /*
  */


 //

 /**
  */
 public static class tAType extends Asn1Integer {
   //

   private static final Asn1Tag TAG_tAType
       = Asn1Tag.fromClassAndNumber(-1, -1);

   public tAType() {
     super();
     setValueRange("0", "255");

   }

   @Override
   @Nullable
   protected Asn1Tag getTag() {
     return TAG_tAType;
   }

   @Override
   protected boolean isTagImplicit() {
     return true;
   }

   public static Collection<Asn1Tag> getPossibleFirstTags() {
     if (TAG_tAType != null) {
       return ImmutableList.of(TAG_tAType);
     } else {
       return Asn1Integer.getPossibleFirstTags();
     }
   }

   /**
    * Creates a new tAType from encoded stream.
    */
   public static tAType fromPerUnaligned(byte[] encodedBytes) {
     tAType result = new tAType();
     result.decodePerUnaligned(new BitStreamReader(encodedBytes));
     return result;
   }

   /**
    * Creates a new tAType from encoded stream.
    */
   public static tAType fromPerAligned(byte[] encodedBytes) {
     tAType result = new tAType();
     result.decodePerAligned(new BitStreamReader(encodedBytes));
     return result;
   }

   @Override public Iterable<BitStream> encodePerUnaligned() {
     return super.encodePerUnaligned();
   }

   @Override public Iterable<BitStream> encodePerAligned() {
     return super.encodePerAligned();
   }

   @Override public void decodePerUnaligned(BitStreamReader reader) {
     super.decodePerUnaligned(reader);
   }

   @Override public void decodePerAligned(BitStreamReader reader) {
     super.decodePerAligned(reader);
   }

   @Override public String toString() {
     return toIndentedString("");
   }

   public String toIndentedString(String indent) {
     return "tAType = " + getInteger() + ";\n";
   }
 }


   @Override public Iterable<BitStream> encodePerUnaligned() {
     return super.encodePerUnaligned();
   }

   @Override public Iterable<BitStream> encodePerAligned() {
     return super.encodePerAligned();
   }

   @Override public void decodePerUnaligned(BitStreamReader reader) {
     super.decodePerUnaligned(reader);
   }

   @Override public void decodePerAligned(BitStreamReader reader) {
     super.decodePerAligned(reader);
   }

   @Override public String toString() {
     return toIndentedString("");
   }

   public String toIndentedString(String indent) {
     StringBuilder builder = new StringBuilder();
     builder.append("GsmCellInformation = {\n");
     final String internalIndent = indent + "  ";
     for (SequenceComponent component : getComponents()) {
       if (component.isExplicitlySet()) {
         builder.append(internalIndent)
             .append(component.toIndentedString(internalIndent));
       }
     }
     if (isExtensible()) {
       builder.append(internalIndent).append("...\n");
       for (SequenceComponent component : getExtensionComponents()) {
         if (component.isExplicitlySet()) {
           builder.append(internalIndent)
               .append(component.toIndentedString(internalIndent));
         }
       }
     }
     builder.append(indent).append("};\n");
     return builder.toString();
   }
 }
	/*
	* Copyright (C) 2017 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.location.cts.asn1.supl2.ulp_components;

	/*
	*/


	//
	//
	import android.location.cts.asn1.base.Asn1Integer;
	import android.location.cts.asn1.base.Asn1Null;
	import android.location.cts.asn1.base.Asn1Object;
	import android.location.cts.asn1.base.Asn1Sequence;
	import android.location.cts.asn1.base.Asn1Tag;
	import android.location.cts.asn1.base.BitStream;
	import android.location.cts.asn1.base.BitStreamReader;
	import android.location.cts.asn1.base.SequenceComponent;
	import com.google.common.collect.ImmutableList;
	import java.util.Collection;
	import javax.annotation.Nullable;


	/**
	*/
	public class GsmCellInformation extends Asn1Sequence {
	//

	private static final Asn1Tag TAG_GsmCellInformation
	= Asn1Tag.fromClassAndNumber(-1, -1);

	public GsmCellInformation() {
	super();
	}

	@Override
	@Nullable
	protected Asn1Tag getTag() {
	return TAG_GsmCellInformation;
	}

	@Override
	protected boolean isTagImplicit() {
	return true;
	}

	public static Collection<Asn1Tag> getPossibleFirstTags() {
	if (TAG_GsmCellInformation != null) {
	return ImmutableList.of(TAG_GsmCellInformation);
	} else {
	return Asn1Sequence.getPossibleFirstTags();
	}
	}

	/**
	* Creates a new GsmCellInformation from encoded stream.
	*/
	public static GsmCellInformation fromPerUnaligned(byte[] encodedBytes) {
	GsmCellInformation result = new GsmCellInformation();
	result.decodePerUnaligned(new BitStreamReader(encodedBytes));
	return result;
	}

	/**
	* Creates a new GsmCellInformation from encoded stream.
	*/
	public static GsmCellInformation fromPerAligned(byte[] encodedBytes) {
	GsmCellInformation result = new GsmCellInformation();
	result.decodePerAligned(new BitStreamReader(encodedBytes));
	return result;
	}



	@Override protected boolean isExtensible() {
	return true;
	}

	@Override public boolean containsExtensionValues() {
	for (SequenceComponent extensionComponent : getExtensionComponents()) {
	if (extensionComponent.isExplicitlySet()) return true;
	}
	return false;
	}


	private GsmCellInformation.refMCCType refMCC_;
	public GsmCellInformation.refMCCType getRefMCC() {
	return refMCC_;
	}
	/**
	* @throws ClassCastException if value is not a GsmCellInformation.refMCCType
	*/
	public void setRefMCC(Asn1Object value) {
	this.refMCC_ = (GsmCellInformation.refMCCType) value;
	}
	public GsmCellInformation.refMCCType setRefMCCToNewInstance() {
	refMCC_ = new GsmCellInformation.refMCCType();
	return refMCC_;
	}

	private GsmCellInformation.refMNCType refMNC_;
	public GsmCellInformation.refMNCType getRefMNC() {
	return refMNC_;
	}
	/**
	* @throws ClassCastException if value is not a GsmCellInformation.refMNCType
	*/
	public void setRefMNC(Asn1Object value) {
	this.refMNC_ = (GsmCellInformation.refMNCType) value;
	}
	public GsmCellInformation.refMNCType setRefMNCToNewInstance() {
	refMNC_ = new GsmCellInformation.refMNCType();
	return refMNC_;
	}

	private GsmCellInformation.refLACType refLAC_;
	public GsmCellInformation.refLACType getRefLAC() {
	return refLAC_;
	}
	/**
	* @throws ClassCastException if value is not a GsmCellInformation.refLACType
	*/
	public void setRefLAC(Asn1Object value) {
	this.refLAC_ = (GsmCellInformation.refLACType) value;
	}
	public GsmCellInformation.refLACType setRefLACToNewInstance() {
	refLAC_ = new GsmCellInformation.refLACType();
	return refLAC_;
	}

	private GsmCellInformation.refCIType refCI_;
	public GsmCellInformation.refCIType getRefCI() {
	return refCI_;
	}
	/**
	* @throws ClassCastException if value is not a GsmCellInformation.refCIType
	*/
	public void setRefCI(Asn1Object value) {
	this.refCI_ = (GsmCellInformation.refCIType) value;
	}
	public GsmCellInformation.refCIType setRefCIToNewInstance() {
	refCI_ = new GsmCellInformation.refCIType();
	return refCI_;
	}

	private NMR nMR_;
	public NMR getNMR() {
	return nMR_;
	}
	/**
	* @throws ClassCastException if value is not a NMR
	*/
	public void setNMR(Asn1Object value) {
	this.nMR_ = (NMR) value;
	}
	public NMR setNMRToNewInstance() {
	nMR_ = new NMR();
	return nMR_;
	}

	private GsmCellInformation.tAType tA_;
	public GsmCellInformation.tAType getTA() {
	return tA_;
	}
	/**
	* @throws ClassCastException if value is not a GsmCellInformation.tAType
	*/
	public void setTA(Asn1Object value) {
	this.tA_ = (GsmCellInformation.tAType) value;
	}
	public GsmCellInformation.tAType setTAToNewInstance() {
	tA_ = new GsmCellInformation.tAType();
	return tA_;
	}






	@Override public Iterable<? extends SequenceComponent> getComponents() {
	ImmutableList.Builder<SequenceComponent> builder = ImmutableList.builder();

	builder.add(new SequenceComponent() {
	Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 0);

	@Override public boolean isExplicitlySet() {
	return getRefMCC() != null;
	}

	@Override public boolean hasDefaultValue() {
	return false;
	}

	@Override public boolean isOptional() {
	return false;
	}

	@Override public Asn1Object getComponentValue() {
	return getRefMCC();
	}

	@Override public void setToNewInstance() {
	setRefMCCToNewInstance();
	}

	@Override public Collection<Asn1Tag> getPossibleFirstTags() {
	return tag == null ? GsmCellInformation.refMCCType.getPossibleFirstTags() : ImmutableList.of(tag);
	}

	@Override
	public Asn1Tag getTag() {
	return tag;
	}

	@Override
	public boolean isImplicitTagging() {
	return true;
	}

	@Override public String toIndentedString(String indent) {
	return "refMCC : "
	+ getRefMCC().toIndentedString(indent);
	}
	});

	builder.add(new SequenceComponent() {
	Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 1);

	@Override public boolean isExplicitlySet() {
	return getRefMNC() != null;
	}

	@Override public boolean hasDefaultValue() {
	return false;
	}

	@Override public boolean isOptional() {
	return false;
	}

	@Override public Asn1Object getComponentValue() {
	return getRefMNC();
	}

	@Override public void setToNewInstance() {
	setRefMNCToNewInstance();
	}

	@Override public Collection<Asn1Tag> getPossibleFirstTags() {
	return tag == null ? GsmCellInformation.refMNCType.getPossibleFirstTags() : ImmutableList.of(tag);
	}

	@Override
	public Asn1Tag getTag() {
	return tag;
	}

	@Override
	public boolean isImplicitTagging() {
	return true;
	}

	@Override public String toIndentedString(String indent) {
	return "refMNC : "
	+ getRefMNC().toIndentedString(indent);
	}
	});

	builder.add(new SequenceComponent() {
	Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 2);

	@Override public boolean isExplicitlySet() {
	return getRefLAC() != null;
	}

	@Override public boolean hasDefaultValue() {
	return false;
	}

	@Override public boolean isOptional() {
	return false;
	}

	@Override public Asn1Object getComponentValue() {
	return getRefLAC();
	}

	@Override public void setToNewInstance() {
	setRefLACToNewInstance();
	}

	@Override public Collection<Asn1Tag> getPossibleFirstTags() {
	return tag == null ? GsmCellInformation.refLACType.getPossibleFirstTags() : ImmutableList.of(tag);
	}

	@Override
	public Asn1Tag getTag() {
	return tag;
	}

	@Override
	public boolean isImplicitTagging() {
	return true;
	}

	@Override public String toIndentedString(String indent) {
	return "refLAC : "
	+ getRefLAC().toIndentedString(indent);
	}
	});

	builder.add(new SequenceComponent() {
	Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 3);

	@Override public boolean isExplicitlySet() {
	return getRefCI() != null;
	}

	@Override public boolean hasDefaultValue() {
	return false;
	}

	@Override public boolean isOptional() {
	return false;
	}

	@Override public Asn1Object getComponentValue() {
	return getRefCI();
	}

	@Override public void setToNewInstance() {
	setRefCIToNewInstance();
	}

	@Override public Collection<Asn1Tag> getPossibleFirstTags() {
	return tag == null ? GsmCellInformation.refCIType.getPossibleFirstTags() : ImmutableList.of(tag);
	}

	@Override
	public Asn1Tag getTag() {
	return tag;
	}

	@Override
	public boolean isImplicitTagging() {
	return true;
	}

	@Override public String toIndentedString(String indent) {
	return "refCI : "
	+ getRefCI().toIndentedString(indent);
	}
	});

	builder.add(new SequenceComponent() {
	Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 4);

	@Override public boolean isExplicitlySet() {
	return getNMR() != null;
	}

	@Override public boolean hasDefaultValue() {
	return false;
	}

	@Override public boolean isOptional() {
	return true;
	}

	@Override public Asn1Object getComponentValue() {
	return getNMR();
	}

	@Override public void setToNewInstance() {
	setNMRToNewInstance();
	}

	@Override public Collection<Asn1Tag> getPossibleFirstTags() {
	return tag == null ? NMR.getPossibleFirstTags() : ImmutableList.of(tag);
	}

	@Override
	public Asn1Tag getTag() {
	return tag;
	}

	@Override
	public boolean isImplicitTagging() {
	return true;
	}

	@Override public String toIndentedString(String indent) {
	return "nMR : "
	+ getNMR().toIndentedString(indent);
	}
	});

	builder.add(new SequenceComponent() {
	Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 5);

	@Override public boolean isExplicitlySet() {
	return getTA() != null;
	}

	@Override public boolean hasDefaultValue() {
	return false;
	}

	@Override public boolean isOptional() {
	return true;
	}

	@Override public Asn1Object getComponentValue() {
	return getTA();
	}

	@Override public void setToNewInstance() {
	setTAToNewInstance();
	}

	@Override public Collection<Asn1Tag> getPossibleFirstTags() {
	return tag == null ? GsmCellInformation.tAType.getPossibleFirstTags() : ImmutableList.of(tag);
	}

	@Override
	public Asn1Tag getTag() {
	return tag;
	}

	@Override
	public boolean isImplicitTagging() {
	return true;
	}

	@Override public String toIndentedString(String indent) {
	return "tA : "
	+ getTA().toIndentedString(indent);
	}
	});

	return builder.build();
	}

	@Override public Iterable<? extends SequenceComponent>
	getExtensionComponents() {
	ImmutableList.Builder<SequenceComponent> builder = ImmutableList.builder();

	return builder.build();
	}


	/*
	*/


	//

	/**
	*/
	public static class refMCCType extends Asn1Integer {
	//

	private static final Asn1Tag TAG_refMCCType
	= Asn1Tag.fromClassAndNumber(-1, -1);

	public refMCCType() {
	super();
	setValueRange("0", "999");

	}

	@Override
	@Nullable
	protected Asn1Tag getTag() {
	return TAG_refMCCType;
	}

	@Override
	protected boolean isTagImplicit() {
	return true;
	}

	public static Collection<Asn1Tag> getPossibleFirstTags() {
	if (TAG_refMCCType != null) {
	return ImmutableList.of(TAG_refMCCType);
	} else {
	return Asn1Integer.getPossibleFirstTags();
	}
	}

	/**
	* Creates a new refMCCType from encoded stream.
	*/
	public static refMCCType fromPerUnaligned(byte[] encodedBytes) {
	refMCCType result = new refMCCType();
	result.decodePerUnaligned(new BitStreamReader(encodedBytes));
	return result;
	}

	/**
	* Creates a new refMCCType from encoded stream.
	*/
	public static refMCCType fromPerAligned(byte[] encodedBytes) {
	refMCCType result = new refMCCType();
	result.decodePerAligned(new BitStreamReader(encodedBytes));
	return result;
	}

	@Override public Iterable<BitStream> encodePerUnaligned() {
	return super.encodePerUnaligned();
	}

	@Override public Iterable<BitStream> encodePerAligned() {
	return super.encodePerAligned();
	}

	@Override public void decodePerUnaligned(BitStreamReader reader) {
	super.decodePerUnaligned(reader);
	}

	@Override public void decodePerAligned(BitStreamReader reader) {
	super.decodePerAligned(reader);
	}

	@Override public String toString() {
	return toIndentedString("");
	}

	public String toIndentedString(String indent) {
	return "refMCCType = " + getInteger() + ";\n";
	}
	}


	/*
	*/


	//

	/**
	*/
	public static class refMNCType extends Asn1Integer {
	//

	private static final Asn1Tag TAG_refMNCType
	= Asn1Tag.fromClassAndNumber(-1, -1);

	public refMNCType() {
	super();
	setValueRange("0", "999");

	}

	@Override
	@Nullable
	protected Asn1Tag getTag() {
	return TAG_refMNCType;
	}

	@Override
	protected boolean isTagImplicit() {
	return true;
	}

	public static Collection<Asn1Tag> getPossibleFirstTags() {
	if (TAG_refMNCType != null) {
	return ImmutableList.of(TAG_refMNCType);
	} else {
	return Asn1Integer.getPossibleFirstTags();
	}
	}

	/**
	* Creates a new refMNCType from encoded stream.
	*/
	public static refMNCType fromPerUnaligned(byte[] encodedBytes) {
	refMNCType result = new refMNCType();
	result.decodePerUnaligned(new BitStreamReader(encodedBytes));
	return result;
	}

	/**
	* Creates a new refMNCType from encoded stream.
	*/
	public static refMNCType fromPerAligned(byte[] encodedBytes) {
	refMNCType result = new refMNCType();
	result.decodePerAligned(new BitStreamReader(encodedBytes));
	return result;
	}

	@Override public Iterable<BitStream> encodePerUnaligned() {
	return super.encodePerUnaligned();
	}

	@Override public Iterable<BitStream> encodePerAligned() {
	return super.encodePerAligned();
	}

	@Override public void decodePerUnaligned(BitStreamReader reader) {
	super.decodePerUnaligned(reader);
	}

	@Override public void decodePerAligned(BitStreamReader reader) {
	super.decodePerAligned(reader);
	}

	@Override public String toString() {
	return toIndentedString("");
	}

	public String toIndentedString(String indent) {
	return "refMNCType = " + getInteger() + ";\n";
	}
	}


	/*
	*/


	//

	/**
	*/
	public static class refLACType extends Asn1Integer {
	//

	private static final Asn1Tag TAG_refLACType
	= Asn1Tag.fromClassAndNumber(-1, -1);

	public refLACType() {
	super();
	setValueRange("0", "65535");

	}

	@Override
	@Nullable
	protected Asn1Tag getTag() {
	return TAG_refLACType;
	}

	@Override
	protected boolean isTagImplicit() {
	return true;
	}

	public static Collection<Asn1Tag> getPossibleFirstTags() {
	if (TAG_refLACType != null) {
	return ImmutableList.of(TAG_refLACType);
	} else {
	return Asn1Integer.getPossibleFirstTags();
	}
	}

	/**
	* Creates a new refLACType from encoded stream.
	*/
	public static refLACType fromPerUnaligned(byte[] encodedBytes) {
	refLACType result = new refLACType();
	result.decodePerUnaligned(new BitStreamReader(encodedBytes));
	return result;
	}

	/**
	* Creates a new refLACType from encoded stream.
	*/
	public static refLACType fromPerAligned(byte[] encodedBytes) {
	refLACType result = new refLACType();
	result.decodePerAligned(new BitStreamReader(encodedBytes));
	return result;
	}

	@Override public Iterable<BitStream> encodePerUnaligned() {
	return super.encodePerUnaligned();
	}

	@Override public Iterable<BitStream> encodePerAligned() {
	return super.encodePerAligned();
	}

	@Override public void decodePerUnaligned(BitStreamReader reader) {
	super.decodePerUnaligned(reader);
	}

	@Override public void decodePerAligned(BitStreamReader reader) {
	super.decodePerAligned(reader);
	}

	@Override public String toString() {
	return toIndentedString("");
	}

	public String toIndentedString(String indent) {
	return "refLACType = " + getInteger() + ";\n";
	}
	}


	/*
	*/


	//

	/**
	*/
	public static class refCIType extends Asn1Integer {
	//

	private static final Asn1Tag TAG_refCIType
	= Asn1Tag.fromClassAndNumber(-1, -1);

	public refCIType() {
	super();
	setValueRange("0", "65535");

	}

	@Override
	@Nullable
	protected Asn1Tag getTag() {
	return TAG_refCIType;
	}

	@Override
	protected boolean isTagImplicit() {
	return true;
	}

	public static Collection<Asn1Tag> getPossibleFirstTags() {
	if (TAG_refCIType != null) {
	return ImmutableList.of(TAG_refCIType);
	} else {
	return Asn1Integer.getPossibleFirstTags();
	}
	}

	/**
	* Creates a new refCIType from encoded stream.
	*/
	public static refCIType fromPerUnaligned(byte[] encodedBytes) {
	refCIType result = new refCIType();
	result.decodePerUnaligned(new BitStreamReader(encodedBytes));
	return result;
	}

	/**
	* Creates a new refCIType from encoded stream.
	*/
	public static refCIType fromPerAligned(byte[] encodedBytes) {
	refCIType result = new refCIType();
	result.decodePerAligned(new BitStreamReader(encodedBytes));
	return result;
	}

	@Override public Iterable<BitStream> encodePerUnaligned() {
	return super.encodePerUnaligned();
	}

	@Override public Iterable<BitStream> encodePerAligned() {
	return super.encodePerAligned();
	}

	@Override public void decodePerUnaligned(BitStreamReader reader) {
	super.decodePerUnaligned(reader);
	}

	@Override public void decodePerAligned(BitStreamReader reader) {
	super.decodePerAligned(reader);
	}

	@Override public String toString() {
	return toIndentedString("");
	}

	public String toIndentedString(String indent) {
	return "refCIType = " + getInteger() + ";\n";
	}
	}




	/*
	*/


	//

	/**
	*/
	public static class tAType extends Asn1Integer {
	//

	private static final Asn1Tag TAG_tAType
	= Asn1Tag.fromClassAndNumber(-1, -1);

	public tAType() {
	super();
	setValueRange("0", "255");

	}

	@Override
	@Nullable
	protected Asn1Tag getTag() {
	return TAG_tAType;
	}

	@Override
	protected boolean isTagImplicit() {
	return true;
	}

	public static Collection<Asn1Tag> getPossibleFirstTags() {
	if (TAG_tAType != null) {
	return ImmutableList.of(TAG_tAType);
	} else {
	return Asn1Integer.getPossibleFirstTags();
	}
	}

	/**
	* Creates a new tAType from encoded stream.
	*/
	public static tAType fromPerUnaligned(byte[] encodedBytes) {
	tAType result = new tAType();
	result.decodePerUnaligned(new BitStreamReader(encodedBytes));
	return result;
	}

	/**
	* Creates a new tAType from encoded stream.
	*/
	public static tAType fromPerAligned(byte[] encodedBytes) {
	tAType result = new tAType();
	result.decodePerAligned(new BitStreamReader(encodedBytes));
	return result;
	}

	@Override public Iterable<BitStream> encodePerUnaligned() {
	return super.encodePerUnaligned();
	}

	@Override public Iterable<BitStream> encodePerAligned() {
	return super.encodePerAligned();
	}

	@Override public void decodePerUnaligned(BitStreamReader reader) {
	super.decodePerUnaligned(reader);
	}

	@Override public void decodePerAligned(BitStreamReader reader) {
	super.decodePerAligned(reader);
	}

	@Override public String toString() {
	return toIndentedString("");
	}

	public String toIndentedString(String indent) {
	return "tAType = " + getInteger() + ";\n";
	}
	}





	@Override public Iterable<BitStream> encodePerUnaligned() {
	return super.encodePerUnaligned();
	}

	@Override public Iterable<BitStream> encodePerAligned() {
	return super.encodePerAligned();
	}

	@Override public void decodePerUnaligned(BitStreamReader reader) {
	super.decodePerUnaligned(reader);
	}

	@Override public void decodePerAligned(BitStreamReader reader) {
	super.decodePerAligned(reader);
	}

	@Override public String toString() {
	return toIndentedString("");
	}

	public String toIndentedString(String indent) {
	StringBuilder builder = new StringBuilder();
	builder.append("GsmCellInformation = {\n");
	final String internalIndent = indent + " ";
	for (SequenceComponent component : getComponents()) {
	if (component.isExplicitlySet()) {
	builder.append(internalIndent)
	.append(component.toIndentedString(internalIndent));
	}
	}
	if (isExtensible()) {
	builder.append(internalIndent).append("...\n");
	for (SequenceComponent component : getExtensionComponents()) {
	if (component.isExplicitlySet()) {
	builder.append(internalIndent)
	.append(component.toIndentedString(internalIndent));
	}
	}
	}
	builder.append(indent).append("};\n");
	return builder.toString();
	}
	}