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android / platform / cts / 1c692be57cf6c2213019b27df80b3de92b862a76 / . / tests / tests / location / src / android / location / cts / asn1 / supl2 / ulp_components / NMRelement.java
blob: c897c46c6a5e7ebd5dce9ce12fb3da5430376bdf [file] [log] [blame]
/*
* 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 NMRelement extends Asn1Sequence {
//
private static final Asn1Tag TAG_NMRelement
= Asn1Tag.fromClassAndNumber(-1, -1);
public NMRelement() {
super();
}
@Override
@Nullable
protected Asn1Tag getTag() {
return TAG_NMRelement;
}
@Override
protected boolean isTagImplicit() {
return true;
}
public static Collection<Asn1Tag> getPossibleFirstTags() {
if (TAG_NMRelement != null) {
return ImmutableList.of(TAG_NMRelement);
} else {
return Asn1Sequence.getPossibleFirstTags();
}
}
/**
* Creates a new NMRelement from encoded stream.
*/
public static NMRelement fromPerUnaligned(byte[] encodedBytes) {
NMRelement result = new NMRelement();
result.decodePerUnaligned(new BitStreamReader(encodedBytes));
return result;
}
/**
* Creates a new NMRelement from encoded stream.
*/
public static NMRelement fromPerAligned(byte[] encodedBytes) {
NMRelement result = new NMRelement();
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 NMRelement.aRFCNType aRFCN_;
public NMRelement.aRFCNType getARFCN() {
return aRFCN_;
}
/**
* @throws ClassCastException if value is not a NMRelement.aRFCNType
*/
public void setARFCN(Asn1Object value) {
this.aRFCN_ = (NMRelement.aRFCNType) value;
}
public NMRelement.aRFCNType setARFCNToNewInstance() {
aRFCN_ = new NMRelement.aRFCNType();
return aRFCN_;
}
private NMRelement.bSICType bSIC_;
public NMRelement.bSICType getBSIC() {
return bSIC_;
}
/**
* @throws ClassCastException if value is not a NMRelement.bSICType
*/
public void setBSIC(Asn1Object value) {
this.bSIC_ = (NMRelement.bSICType) value;
}
public NMRelement.bSICType setBSICToNewInstance() {
bSIC_ = new NMRelement.bSICType();
return bSIC_;
}
private NMRelement.rxLevType rxLev_;
public NMRelement.rxLevType getRxLev() {
return rxLev_;
}
/**
* @throws ClassCastException if value is not a NMRelement.rxLevType
*/
public void setRxLev(Asn1Object value) {
this.rxLev_ = (NMRelement.rxLevType) value;
}
public NMRelement.rxLevType setRxLevToNewInstance() {
rxLev_ = new NMRelement.rxLevType();
return rxLev_;
}
@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 getARFCN() != null;
}
@Override public boolean hasDefaultValue() {
return false;
}
@Override public boolean isOptional() {
return false;
}
@Override public Asn1Object getComponentValue() {
return getARFCN();
}
@Override public void setToNewInstance() {
setARFCNToNewInstance();
}
@Override public Collection<Asn1Tag> getPossibleFirstTags() {
return tag == null ? NMRelement.aRFCNType.getPossibleFirstTags() : ImmutableList.of(tag);
}
@Override
public Asn1Tag getTag() {
return tag;
}
@Override
public boolean isImplicitTagging() {
return true;
}
@Override public String toIndentedString(String indent) {
return "aRFCN : "
+ getARFCN().toIndentedString(indent);
}
});
builder.add(new SequenceComponent() {
Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 1);
@Override public boolean isExplicitlySet() {
return getBSIC() != null;
}
@Override public boolean hasDefaultValue() {
return false;
}
@Override public boolean isOptional() {
return false;
}
@Override public Asn1Object getComponentValue() {
return getBSIC();
}
@Override public void setToNewInstance() {
setBSICToNewInstance();
}
@Override public Collection<Asn1Tag> getPossibleFirstTags() {
return tag == null ? NMRelement.bSICType.getPossibleFirstTags() : ImmutableList.of(tag);
}
@Override
public Asn1Tag getTag() {
return tag;
}
@Override
public boolean isImplicitTagging() {
return true;
}
@Override public String toIndentedString(String indent) {
return "bSIC : "
+ getBSIC().toIndentedString(indent);
}
});
builder.add(new SequenceComponent() {
Asn1Tag tag = Asn1Tag.fromClassAndNumber(2, 2);
@Override public boolean isExplicitlySet() {
return getRxLev() != null;
}
@Override public boolean hasDefaultValue() {
return false;
}
@Override public boolean isOptional() {
return false;
}
@Override public Asn1Object getComponentValue() {
return getRxLev();
}
@Override public void setToNewInstance() {
setRxLevToNewInstance();
}
@Override public Collection<Asn1Tag> getPossibleFirstTags() {
return tag == null ? NMRelement.rxLevType.getPossibleFirstTags() : ImmutableList.of(tag);
}
@Override
public Asn1Tag getTag() {
return tag;
}
@Override
public boolean isImplicitTagging() {
return true;
}
@Override public String toIndentedString(String indent) {
return "rxLev : "
+ getRxLev().toIndentedString(indent);
}
});
return builder.build();
}
@Override public Iterable<? extends SequenceComponent>
getExtensionComponents() {
ImmutableList.Builder<SequenceComponent> builder = ImmutableList.builder();
return builder.build();
}
/*
*/
//
/**
*/
public static class aRFCNType extends Asn1Integer {
//
private static final Asn1Tag TAG_aRFCNType
= Asn1Tag.fromClassAndNumber(-1, -1);
public aRFCNType() {
super();
setValueRange("0", "1023");
}
@Override
@Nullable
protected Asn1Tag getTag() {
return TAG_aRFCNType;
}
@Override
protected boolean isTagImplicit() {
return true;
}
public static Collection<Asn1Tag> getPossibleFirstTags() {
if (TAG_aRFCNType != null) {
return ImmutableList.of(TAG_aRFCNType);
} else {
return Asn1Integer.getPossibleFirstTags();
}
}
/**
* Creates a new aRFCNType from encoded stream.
*/
public static aRFCNType fromPerUnaligned(byte[] encodedBytes) {
aRFCNType result = new aRFCNType();
result.decodePerUnaligned(new BitStreamReader(encodedBytes));
return result;
}
/**
* Creates a new aRFCNType from encoded stream.
*/
public static aRFCNType fromPerAligned(byte[] encodedBytes) {
aRFCNType result = new aRFCNType();
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 "aRFCNType = " + getInteger() + ";\n";
}
}
/*
*/
//
/**
*/
public static class bSICType extends Asn1Integer {
//
private static final Asn1Tag TAG_bSICType
= Asn1Tag.fromClassAndNumber(-1, -1);
public bSICType() {
super();
setValueRange("0", "63");
}
@Override
@Nullable
protected Asn1Tag getTag() {
return TAG_bSICType;
}
@Override
protected boolean isTagImplicit() {
return true;
}
public static Collection<Asn1Tag> getPossibleFirstTags() {
if (TAG_bSICType != null) {
return ImmutableList.of(TAG_bSICType);
} else {
return Asn1Integer.getPossibleFirstTags();
}
}
/**
* Creates a new bSICType from encoded stream.
*/
public static bSICType fromPerUnaligned(byte[] encodedBytes) {
bSICType result = new bSICType();
result.decodePerUnaligned(new BitStreamReader(encodedBytes));
return result;
}
/**
* Creates a new bSICType from encoded stream.
*/
public static bSICType fromPerAligned(byte[] encodedBytes) {
bSICType result = new bSICType();
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 "bSICType = " + getInteger() + ";\n";
}
}
/*
*/
//
/**
*/
public static class rxLevType extends Asn1Integer {
//
private static final Asn1Tag TAG_rxLevType
= Asn1Tag.fromClassAndNumber(-1, -1);
public rxLevType() {
super();
setValueRange("0", "63");
}
@Override
@Nullable
protected Asn1Tag getTag() {
return TAG_rxLevType;
}
@Override
protected boolean isTagImplicit() {
return true;
}
public static Collection<Asn1Tag> getPossibleFirstTags() {
if (TAG_rxLevType != null) {
return ImmutableList.of(TAG_rxLevType);
} else {
return Asn1Integer.getPossibleFirstTags();
}
}
/**
* Creates a new rxLevType from encoded stream.
*/
public static rxLevType fromPerUnaligned(byte[] encodedBytes) {
rxLevType result = new rxLevType();
result.decodePerUnaligned(new BitStreamReader(encodedBytes));
return result;
}
/**
* Creates a new rxLevType from encoded stream.
*/
public static rxLevType fromPerAligned(byte[] encodedBytes) {
rxLevType result = new rxLevType();
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 "rxLevType = " + 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("NMRelement = {\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();
}
}