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/*
* Copyright 2024 Google LLC
*
* 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
*
* https://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.
*/
// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: google/api/metric.proto
// Protobuf Java Version: 3.25.3
package com.google.api;
/**
*
*
*
* Defines a metric type and its schema. Once a metric descriptor is created,
* deleting or altering it stops data collection and makes the metric type's
* existing data unusable.
*
*
* Protobuf type {@code google.api.MetricDescriptor}
*/
public final class MetricDescriptor extends com.google.protobuf.GeneratedMessageV3
implements
// @@protoc_insertion_point(message_implements:google.api.MetricDescriptor)
MetricDescriptorOrBuilder {
private static final long serialVersionUID = 0L;
// Use MetricDescriptor.newBuilder() to construct.
private MetricDescriptor(com.google.protobuf.GeneratedMessageV3.Builder builder) {
super(builder);
}
private MetricDescriptor() {
name_ = "";
type_ = "";
labels_ = java.util.Collections.emptyList();
metricKind_ = 0;
valueType_ = 0;
unit_ = "";
description_ = "";
displayName_ = "";
launchStage_ = 0;
monitoredResourceTypes_ = com.google.protobuf.LazyStringArrayList.emptyList();
}
@java.lang.Override
@SuppressWarnings({"unused"})
protected java.lang.Object newInstance(UnusedPrivateParameter unused) {
return new MetricDescriptor();
}
public static final com.google.protobuf.Descriptors.Descriptor getDescriptor() {
return com.google.api.MetricProto.internal_static_google_api_MetricDescriptor_descriptor;
}
@java.lang.Override
protected com.google.protobuf.GeneratedMessageV3.FieldAccessorTable
internalGetFieldAccessorTable() {
return com.google.api.MetricProto.internal_static_google_api_MetricDescriptor_fieldAccessorTable
.ensureFieldAccessorsInitialized(
com.google.api.MetricDescriptor.class, com.google.api.MetricDescriptor.Builder.class);
}
/**
*
*
*
* The kind of measurement. It describes how the data is reported.
* For information on setting the start time and end time based on
* the MetricKind, see [TimeInterval][google.monitoring.v3.TimeInterval].
*
* A value accumulated over a time interval. Cumulative
* measurements in a time series should have the same start time
* and increasing end times, until an event resets the cumulative
* value to zero and sets a new start time for the following
* points.
*
*
* METRIC_KIND_UNSPECIFIED = 0;
*/
public static final int METRIC_KIND_UNSPECIFIED_VALUE = 0;
/**
*
*
*
* An instantaneous measurement of a value.
*
*
* GAUGE = 1;
*/
public static final int GAUGE_VALUE = 1;
/**
*
*
*
* The change in a value during a time interval.
*
*
* DELTA = 2;
*/
public static final int DELTA_VALUE = 2;
/**
*
*
*
* A value accumulated over a time interval. Cumulative
* measurements in a time series should have the same start time
* and increasing end times, until an event resets the cumulative
* value to zero and sets a new start time for the following
* points.
*
*
* CUMULATIVE = 3;
*/
public static final int CUMULATIVE_VALUE = 3;
public final int getNumber() {
if (this == UNRECOGNIZED) {
throw new java.lang.IllegalArgumentException(
"Can't get the number of an unknown enum value.");
}
return value;
}
/**
* @param value The numeric wire value of the corresponding enum entry.
* @return The enum associated with the given numeric wire value.
* @deprecated Use {@link #forNumber(int)} instead.
*/
@java.lang.Deprecated
public static MetricKind valueOf(int value) {
return forNumber(value);
}
/**
* @param value The numeric wire value of the corresponding enum entry.
* @return The enum associated with the given numeric wire value.
*/
public static MetricKind forNumber(int value) {
switch (value) {
case 0:
return METRIC_KIND_UNSPECIFIED;
case 1:
return GAUGE;
case 2:
return DELTA;
case 3:
return CUMULATIVE;
default:
return null;
}
}
public static com.google.protobuf.Internal.EnumLiteMap internalGetValueMap() {
return internalValueMap;
}
private static final com.google.protobuf.Internal.EnumLiteMap internalValueMap =
new com.google.protobuf.Internal.EnumLiteMap() {
public MetricKind findValueByNumber(int number) {
return MetricKind.forNumber(number);
}
};
public final com.google.protobuf.Descriptors.EnumValueDescriptor getValueDescriptor() {
if (this == UNRECOGNIZED) {
throw new java.lang.IllegalStateException(
"Can't get the descriptor of an unrecognized enum value.");
}
return getDescriptor().getValues().get(ordinal());
}
public final com.google.protobuf.Descriptors.EnumDescriptor getDescriptorForType() {
return getDescriptor();
}
public static final com.google.protobuf.Descriptors.EnumDescriptor getDescriptor() {
return com.google.api.MetricDescriptor.getDescriptor().getEnumTypes().get(0);
}
private static final MetricKind[] VALUES = values();
public static MetricKind valueOf(com.google.protobuf.Descriptors.EnumValueDescriptor desc) {
if (desc.getType() != getDescriptor()) {
throw new java.lang.IllegalArgumentException("EnumValueDescriptor is not for this type.");
}
if (desc.getIndex() == -1) {
return UNRECOGNIZED;
}
return VALUES[desc.getIndex()];
}
private final int value;
private MetricKind(int value) {
this.value = value;
}
// @@protoc_insertion_point(enum_scope:google.api.MetricDescriptor.MetricKind)
}
/**
*
*
*
*
* VALUE_TYPE_UNSPECIFIED = 0;
*/
public static final int VALUE_TYPE_UNSPECIFIED_VALUE = 0;
/**
*
*
*
* The value is a boolean.
* This value type can be used only if the metric kind is `GAUGE`.
*
*
* BOOL = 1;
*/
public static final int BOOL_VALUE = 1;
/**
*
*
*
* The value is a signed 64-bit integer.
*
*
* INT64 = 2;
*/
public static final int INT64_VALUE = 2;
/**
*
*
*
* The value is a double precision floating point number.
*
*
* DOUBLE = 3;
*/
public static final int DOUBLE_VALUE = 3;
/**
*
*
*
* The value is a text string.
* This value type can be used only if the metric kind is `GAUGE`.
*
*
* STRING = 4;
*/
public static final int STRING_VALUE = 4;
/**
*
*
*
* The value is a [`Distribution`][google.api.Distribution].
*
*
* DISTRIBUTION = 5;
*/
public static final int DISTRIBUTION_VALUE = 5;
/**
*
*
*
* The value is money.
*
*
* MONEY = 6;
*/
public static final int MONEY_VALUE = 6;
public final int getNumber() {
if (this == UNRECOGNIZED) {
throw new java.lang.IllegalArgumentException(
"Can't get the number of an unknown enum value.");
}
return value;
}
/**
* @param value The numeric wire value of the corresponding enum entry.
* @return The enum associated with the given numeric wire value.
* @deprecated Use {@link #forNumber(int)} instead.
*/
@java.lang.Deprecated
public static ValueType valueOf(int value) {
return forNumber(value);
}
/**
* @param value The numeric wire value of the corresponding enum entry.
* @return The enum associated with the given numeric wire value.
*/
public static ValueType forNumber(int value) {
switch (value) {
case 0:
return VALUE_TYPE_UNSPECIFIED;
case 1:
return BOOL;
case 2:
return INT64;
case 3:
return DOUBLE;
case 4:
return STRING;
case 5:
return DISTRIBUTION;
case 6:
return MONEY;
default:
return null;
}
}
public static com.google.protobuf.Internal.EnumLiteMap internalGetValueMap() {
return internalValueMap;
}
private static final com.google.protobuf.Internal.EnumLiteMap internalValueMap =
new com.google.protobuf.Internal.EnumLiteMap() {
public ValueType findValueByNumber(int number) {
return ValueType.forNumber(number);
}
};
public final com.google.protobuf.Descriptors.EnumValueDescriptor getValueDescriptor() {
if (this == UNRECOGNIZED) {
throw new java.lang.IllegalStateException(
"Can't get the descriptor of an unrecognized enum value.");
}
return getDescriptor().getValues().get(ordinal());
}
public final com.google.protobuf.Descriptors.EnumDescriptor getDescriptorForType() {
return getDescriptor();
}
public static final com.google.protobuf.Descriptors.EnumDescriptor getDescriptor() {
return com.google.api.MetricDescriptor.getDescriptor().getEnumTypes().get(1);
}
private static final ValueType[] VALUES = values();
public static ValueType valueOf(com.google.protobuf.Descriptors.EnumValueDescriptor desc) {
if (desc.getType() != getDescriptor()) {
throw new java.lang.IllegalArgumentException("EnumValueDescriptor is not for this type.");
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return UNRECOGNIZED;
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return VALUES[desc.getIndex()];
}
private final int value;
private ValueType(int value) {
this.value = value;
}
// @@protoc_insertion_point(enum_scope:google.api.MetricDescriptor.ValueType)
}
public interface MetricDescriptorMetadataOrBuilder
extends
// @@protoc_insertion_point(interface_extends:google.api.MetricDescriptor.MetricDescriptorMetadata)
com.google.protobuf.MessageOrBuilder {
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is deprecated.
* See google/api/metric.proto;l=85
* @return The enum numeric value on the wire for launchStage.
*/
@java.lang.Deprecated
int getLaunchStageValue();
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is deprecated.
* See google/api/metric.proto;l=85
* @return The launchStage.
*/
@java.lang.Deprecated
com.google.api.LaunchStage getLaunchStage();
/**
*
*
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
*
* .google.protobuf.Duration sample_period = 2;
*
* @return Whether the samplePeriod field is set.
*/
boolean hasSamplePeriod();
/**
*
*
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
*
* .google.protobuf.Duration ingest_delay = 3;
*
* @return Whether the ingestDelay field is set.
*/
boolean hasIngestDelay();
/**
*
*
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* Additional annotations that can be used to guide the usage of a metric.
*
*
* Protobuf type {@code google.api.MetricDescriptor.MetricDescriptorMetadata}
*/
public static final class MetricDescriptorMetadata extends com.google.protobuf.GeneratedMessageV3
implements
// @@protoc_insertion_point(message_implements:google.api.MetricDescriptor.MetricDescriptorMetadata)
MetricDescriptorMetadataOrBuilder {
private static final long serialVersionUID = 0L;
// Use MetricDescriptorMetadata.newBuilder() to construct.
private MetricDescriptorMetadata(com.google.protobuf.GeneratedMessageV3.Builder builder) {
super(builder);
}
private MetricDescriptorMetadata() {
launchStage_ = 0;
}
@java.lang.Override
@SuppressWarnings({"unused"})
protected java.lang.Object newInstance(UnusedPrivateParameter unused) {
return new MetricDescriptorMetadata();
}
public static final com.google.protobuf.Descriptors.Descriptor getDescriptor() {
return com.google.api.MetricProto
.internal_static_google_api_MetricDescriptor_MetricDescriptorMetadata_descriptor;
}
@java.lang.Override
protected com.google.protobuf.GeneratedMessageV3.FieldAccessorTable
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/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is deprecated.
* See google/api/metric.proto;l=85
* @return The enum numeric value on the wire for launchStage.
*/
@java.lang.Override
@java.lang.Deprecated
public int getLaunchStageValue() {
return launchStage_;
}
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is deprecated.
* See google/api/metric.proto;l=85
* @return The launchStage.
*/
@java.lang.Override
@java.lang.Deprecated
public com.google.api.LaunchStage getLaunchStage() {
com.google.api.LaunchStage result = com.google.api.LaunchStage.forNumber(launchStage_);
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private com.google.protobuf.Duration samplePeriod_;
/**
*
*
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
*
* .google.protobuf.Duration sample_period = 2;
*
* @return Whether the samplePeriod field is set.
*/
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/**
*
*
*
* The sampling period of metric data points. For metrics which are written
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* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
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*
*
* .google.protobuf.Duration sample_period = 2;
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@java.lang.Override
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private com.google.protobuf.Duration ingestDelay_;
/**
*
*
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
*
* .google.protobuf.Duration ingest_delay = 3;
*
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*
*
* The delay of data points caused by ingestion. Data points older than this
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*
* The delay of data points caused by ingestion. Data points older than this
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*
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/**
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*
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*
*
* Protobuf type {@code google.api.MetricDescriptor.MetricDescriptorMetadata}
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com.google.api.MetricDescriptor.MetricDescriptorMetadataOrBuilder {
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@java.lang.Override
public com.google.api.MetricDescriptor.MetricDescriptorMetadata buildPartial() {
com.google.api.MetricDescriptor.MetricDescriptorMetadata result =
new com.google.api.MetricDescriptor.MetricDescriptorMetadata(this);
if (bitField0_ != 0) {
buildPartial0(result);
}
onBuilt();
return result;
}
private void buildPartial0(com.google.api.MetricDescriptor.MetricDescriptorMetadata result) {
int from_bitField0_ = bitField0_;
if (((from_bitField0_ & 0x00000001) != 0)) {
result.launchStage_ = launchStage_;
}
int to_bitField0_ = 0;
if (((from_bitField0_ & 0x00000002) != 0)) {
result.samplePeriod_ =
samplePeriodBuilder_ == null ? samplePeriod_ : samplePeriodBuilder_.build();
to_bitField0_ |= 0x00000001;
}
if (((from_bitField0_ & 0x00000004) != 0)) {
result.ingestDelay_ =
ingestDelayBuilder_ == null ? ingestDelay_ : ingestDelayBuilder_.build();
to_bitField0_ |= 0x00000002;
}
result.bitField0_ |= to_bitField0_;
}
@java.lang.Override
public Builder clone() {
return super.clone();
}
@java.lang.Override
public Builder setField(
com.google.protobuf.Descriptors.FieldDescriptor field, java.lang.Object value) {
return super.setField(field, value);
}
@java.lang.Override
public Builder clearField(com.google.protobuf.Descriptors.FieldDescriptor field) {
return super.clearField(field);
}
@java.lang.Override
public Builder clearOneof(com.google.protobuf.Descriptors.OneofDescriptor oneof) {
return super.clearOneof(oneof);
}
@java.lang.Override
public Builder setRepeatedField(
com.google.protobuf.Descriptors.FieldDescriptor field,
int index,
java.lang.Object value) {
return super.setRepeatedField(field, index, value);
}
@java.lang.Override
public Builder addRepeatedField(
com.google.protobuf.Descriptors.FieldDescriptor field, java.lang.Object value) {
return super.addRepeatedField(field, value);
}
@java.lang.Override
public Builder mergeFrom(com.google.protobuf.Message other) {
if (other instanceof com.google.api.MetricDescriptor.MetricDescriptorMetadata) {
return mergeFrom((com.google.api.MetricDescriptor.MetricDescriptorMetadata) other);
} else {
super.mergeFrom(other);
return this;
}
}
public Builder mergeFrom(com.google.api.MetricDescriptor.MetricDescriptorMetadata other) {
if (other == com.google.api.MetricDescriptor.MetricDescriptorMetadata.getDefaultInstance())
return this;
if (other.launchStage_ != 0) {
setLaunchStageValue(other.getLaunchStageValue());
}
if (other.hasSamplePeriod()) {
mergeSamplePeriod(other.getSamplePeriod());
}
if (other.hasIngestDelay()) {
mergeIngestDelay(other.getIngestDelay());
}
this.mergeUnknownFields(other.getUnknownFields());
onChanged();
return this;
}
@java.lang.Override
public final boolean isInitialized() {
return true;
}
@java.lang.Override
public Builder mergeFrom(
com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry)
throws java.io.IOException {
if (extensionRegistry == null) {
throw new java.lang.NullPointerException();
}
try {
boolean done = false;
while (!done) {
int tag = input.readTag();
switch (tag) {
case 0:
done = true;
break;
case 8:
{
launchStage_ = input.readEnum();
bitField0_ |= 0x00000001;
break;
} // case 8
case 18:
{
input.readMessage(getSamplePeriodFieldBuilder().getBuilder(), extensionRegistry);
bitField0_ |= 0x00000002;
break;
} // case 18
case 26:
{
input.readMessage(getIngestDelayFieldBuilder().getBuilder(), extensionRegistry);
bitField0_ |= 0x00000004;
break;
} // case 26
default:
{
if (!super.parseUnknownField(input, extensionRegistry, tag)) {
done = true; // was an endgroup tag
}
break;
} // default:
} // switch (tag)
} // while (!done)
} catch (com.google.protobuf.InvalidProtocolBufferException e) {
throw e.unwrapIOException();
} finally {
onChanged();
} // finally
return this;
}
private int bitField0_;
private int launchStage_ = 0;
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is
* deprecated. See google/api/metric.proto;l=85
* @return The enum numeric value on the wire for launchStage.
*/
@java.lang.Override
@java.lang.Deprecated
public int getLaunchStageValue() {
return launchStage_;
}
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is
* deprecated. See google/api/metric.proto;l=85
* @param value The enum numeric value on the wire for launchStage to set.
* @return This builder for chaining.
*/
@java.lang.Deprecated
public Builder setLaunchStageValue(int value) {
launchStage_ = value;
bitField0_ |= 0x00000001;
onChanged();
return this;
}
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is
* deprecated. See google/api/metric.proto;l=85
* @return The launchStage.
*/
@java.lang.Override
@java.lang.Deprecated
public com.google.api.LaunchStage getLaunchStage() {
com.google.api.LaunchStage result = com.google.api.LaunchStage.forNumber(launchStage_);
return result == null ? com.google.api.LaunchStage.UNRECOGNIZED : result;
}
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
*
* .google.api.LaunchStage launch_stage = 1 [deprecated = true];
*
* @deprecated google.api.MetricDescriptor.MetricDescriptorMetadata.launch_stage is
* deprecated. See google/api/metric.proto;l=85
* @param value The launchStage to set.
* @return This builder for chaining.
*/
@java.lang.Deprecated
public Builder setLaunchStage(com.google.api.LaunchStage value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000001;
launchStage_ = value.getNumber();
onChanged();
return this;
}
/**
*
*
*
* Deprecated. Must use the
* [MetricDescriptor.launch_stage][google.api.MetricDescriptor.launch_stage]
* instead.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
*
* .google.protobuf.Duration sample_period = 2;
*
* @return Whether the samplePeriod field is set.
*/
public boolean hasSamplePeriod() {
return ((bitField0_ & 0x00000002) != 0);
}
/**
*
*
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The sampling period of metric data points. For metrics which are written
* periodically, consecutive data points are stored at this time interval,
* excluding data loss due to errors. Metrics with a higher granularity have
* a smaller sampling period.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
*
* .google.protobuf.Duration ingest_delay = 3;
*
* @return Whether the ingestDelay field is set.
*/
public boolean hasIngestDelay() {
return ((bitField0_ & 0x00000004) != 0);
}
/**
*
*
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
* The delay of data points caused by ingestion. Data points older than this
* age are guaranteed to be ingested and available to be read, excluding
* data loss due to errors.
*
*
* .google.protobuf.Duration ingest_delay = 3;
*/
private com.google.protobuf.SingleFieldBuilderV3<
com.google.protobuf.Duration,
com.google.protobuf.Duration.Builder,
com.google.protobuf.DurationOrBuilder>
getIngestDelayFieldBuilder() {
if (ingestDelayBuilder_ == null) {
ingestDelayBuilder_ =
new com.google.protobuf.SingleFieldBuilderV3<
com.google.protobuf.Duration,
com.google.protobuf.Duration.Builder,
com.google.protobuf.DurationOrBuilder>(
getIngestDelay(), getParentForChildren(), isClean());
ingestDelay_ = null;
}
return ingestDelayBuilder_;
}
@java.lang.Override
public final Builder setUnknownFields(
final com.google.protobuf.UnknownFieldSet unknownFields) {
return super.setUnknownFields(unknownFields);
}
@java.lang.Override
public final Builder mergeUnknownFields(
final com.google.protobuf.UnknownFieldSet unknownFields) {
return super.mergeUnknownFields(unknownFields);
}
// @@protoc_insertion_point(builder_scope:google.api.MetricDescriptor.MetricDescriptorMetadata)
}
// @@protoc_insertion_point(class_scope:google.api.MetricDescriptor.MetricDescriptorMetadata)
private static final com.google.api.MetricDescriptor.MetricDescriptorMetadata DEFAULT_INSTANCE;
static {
DEFAULT_INSTANCE = new com.google.api.MetricDescriptor.MetricDescriptorMetadata();
}
public static com.google.api.MetricDescriptor.MetricDescriptorMetadata getDefaultInstance() {
return DEFAULT_INSTANCE;
}
private static final com.google.protobuf.Parser PARSER =
new com.google.protobuf.AbstractParser() {
@java.lang.Override
public MetricDescriptorMetadata parsePartialFrom(
com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry)
throws com.google.protobuf.InvalidProtocolBufferException {
Builder builder = newBuilder();
try {
builder.mergeFrom(input, extensionRegistry);
} catch (com.google.protobuf.InvalidProtocolBufferException e) {
throw e.setUnfinishedMessage(builder.buildPartial());
} catch (com.google.protobuf.UninitializedMessageException e) {
throw e.asInvalidProtocolBufferException()
.setUnfinishedMessage(builder.buildPartial());
} catch (java.io.IOException e) {
throw new com.google.protobuf.InvalidProtocolBufferException(e)
.setUnfinishedMessage(builder.buildPartial());
}
return builder.buildPartial();
}
};
public static com.google.protobuf.Parser parser() {
return PARSER;
}
@java.lang.Override
public com.google.protobuf.Parser getParserForType() {
return PARSER;
}
@java.lang.Override
public com.google.api.MetricDescriptor.MetricDescriptorMetadata getDefaultInstanceForType() {
return DEFAULT_INSTANCE;
}
}
private int bitField0_;
public static final int NAME_FIELD_NUMBER = 1;
@SuppressWarnings("serial")
private volatile java.lang.Object name_ = "";
/**
*
*
*
*
* string name = 1;
*
* @return The bytes for name.
*/
@java.lang.Override
public com.google.protobuf.ByteString getNameBytes() {
java.lang.Object ref = name_;
if (ref instanceof java.lang.String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8((java.lang.String) ref);
name_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
public static final int TYPE_FIELD_NUMBER = 8;
@SuppressWarnings("serial")
private volatile java.lang.Object type_ = "";
/**
*
*
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
*
* string type = 8;
*
* @return The bytes for type.
*/
@java.lang.Override
public com.google.protobuf.ByteString getTypeBytes() {
java.lang.Object ref = type_;
if (ref instanceof java.lang.String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8((java.lang.String) ref);
type_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
public static final int LABELS_FIELD_NUMBER = 2;
@SuppressWarnings("serial")
private java.util.List labels_;
/**
*
*
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
*
* repeated .google.api.LabelDescriptor labels = 2;
*/
@java.lang.Override
public int getLabelsCount() {
return labels_.size();
}
/**
*
*
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
*
* repeated .google.api.LabelDescriptor labels = 2;
*/
@java.lang.Override
public com.google.api.LabelDescriptorOrBuilder getLabelsOrBuilder(int index) {
return labels_.get(index);
}
public static final int METRIC_KIND_FIELD_NUMBER = 3;
private int metricKind_ = 0;
/**
*
*
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @return The enum numeric value on the wire for metricKind.
*/
@java.lang.Override
public int getMetricKindValue() {
return metricKind_;
}
/**
*
*
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @return The metricKind.
*/
@java.lang.Override
public com.google.api.MetricDescriptor.MetricKind getMetricKind() {
com.google.api.MetricDescriptor.MetricKind result =
com.google.api.MetricDescriptor.MetricKind.forNumber(metricKind_);
return result == null ? com.google.api.MetricDescriptor.MetricKind.UNRECOGNIZED : result;
}
public static final int VALUE_TYPE_FIELD_NUMBER = 4;
private int valueType_ = 0;
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.ValueType value_type = 4;
*
* @return The enum numeric value on the wire for valueType.
*/
@java.lang.Override
public int getValueTypeValue() {
return valueType_;
}
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.ValueType value_type = 4;
*
* @return The valueType.
*/
@java.lang.Override
public com.google.api.MetricDescriptor.ValueType getValueType() {
com.google.api.MetricDescriptor.ValueType result =
com.google.api.MetricDescriptor.ValueType.forNumber(valueType_);
return result == null ? com.google.api.MetricDescriptor.ValueType.UNRECOGNIZED : result;
}
public static final int UNIT_FIELD_NUMBER = 5;
@SuppressWarnings("serial")
private volatile java.lang.Object unit_ = "";
/**
*
*
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
* is used alone, then the unit is equivalent to `1`. For examples,
* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @return The unit.
*/
@java.lang.Override
public java.lang.String getUnit() {
java.lang.Object ref = unit_;
if (ref instanceof java.lang.String) {
return (java.lang.String) ref;
} else {
com.google.protobuf.ByteString bs = (com.google.protobuf.ByteString) ref;
java.lang.String s = bs.toStringUtf8();
unit_ = s;
return s;
}
}
/**
*
*
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
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* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @return The bytes for unit.
*/
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public com.google.protobuf.ByteString getUnitBytes() {
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public static final int DESCRIPTION_FIELD_NUMBER = 6;
@SuppressWarnings("serial")
private volatile java.lang.Object description_ = "";
/**
*
*
*
* A detailed description of the metric, which can be used in documentation.
*
* A detailed description of the metric, which can be used in documentation.
*
*
* string description = 6;
*
* @return The bytes for description.
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/**
*
*
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
*
* string display_name = 7;
*
* @return The bytes for displayName.
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/**
*
*
*
* Optional. Metadata which can be used to guide usage of the metric.
*
*
* .google.api.MetricDescriptor.MetricDescriptorMetadata metadata = 10;
*
* @return Whether the metadata field is set.
*/
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/**
*
*
*
* Optional. Metadata which can be used to guide usage of the metric.
*
* Optional. Metadata which can be used to guide usage of the metric.
*
*
* .google.api.MetricDescriptor.MetricDescriptorMetadata metadata = 10;
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/**
*
*
*
* Optional. The launch stage of the metric definition.
*
*
* .google.api.LaunchStage launch_stage = 12;
*
* @return The enum numeric value on the wire for launchStage.
*/
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/**
*
*
*
* Optional. The launch stage of the metric definition.
*
*
* .google.api.LaunchStage launch_stage = 12;
*
* @return The launchStage.
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*
*
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*
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*
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*
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*
*
*
* Read-only. If present, then a [time
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*
*
* repeated string monitored_resource_types = 13;
*
* @param index The index of the element to return.
* @return The monitoredResourceTypes at the given index.
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*
*
*
* Read-only. If present, then a [time
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* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
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* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
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onChanged();
}
} else {
if (!other.labels_.isEmpty()) {
if (labelsBuilder_.isEmpty()) {
labelsBuilder_.dispose();
labelsBuilder_ = null;
labels_ = other.labels_;
bitField0_ = (bitField0_ & ~0x00000004);
labelsBuilder_ =
com.google.protobuf.GeneratedMessageV3.alwaysUseFieldBuilders
? getLabelsFieldBuilder()
: null;
} else {
labelsBuilder_.addAllMessages(other.labels_);
}
}
}
if (other.metricKind_ != 0) {
setMetricKindValue(other.getMetricKindValue());
}
if (other.valueType_ != 0) {
setValueTypeValue(other.getValueTypeValue());
}
if (!other.getUnit().isEmpty()) {
unit_ = other.unit_;
bitField0_ |= 0x00000020;
onChanged();
}
if (!other.getDescription().isEmpty()) {
description_ = other.description_;
bitField0_ |= 0x00000040;
onChanged();
}
if (!other.getDisplayName().isEmpty()) {
displayName_ = other.displayName_;
bitField0_ |= 0x00000080;
onChanged();
}
if (other.hasMetadata()) {
mergeMetadata(other.getMetadata());
}
if (other.launchStage_ != 0) {
setLaunchStageValue(other.getLaunchStageValue());
}
if (!other.monitoredResourceTypes_.isEmpty()) {
if (monitoredResourceTypes_.isEmpty()) {
monitoredResourceTypes_ = other.monitoredResourceTypes_;
bitField0_ |= 0x00000400;
} else {
ensureMonitoredResourceTypesIsMutable();
monitoredResourceTypes_.addAll(other.monitoredResourceTypes_);
}
onChanged();
}
this.mergeUnknownFields(other.getUnknownFields());
onChanged();
return this;
}
@java.lang.Override
public final boolean isInitialized() {
return true;
}
@java.lang.Override
public Builder mergeFrom(
com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry)
throws java.io.IOException {
if (extensionRegistry == null) {
throw new java.lang.NullPointerException();
}
try {
boolean done = false;
while (!done) {
int tag = input.readTag();
switch (tag) {
case 0:
done = true;
break;
case 10:
{
name_ = input.readStringRequireUtf8();
bitField0_ |= 0x00000001;
break;
} // case 10
case 18:
{
com.google.api.LabelDescriptor m =
input.readMessage(com.google.api.LabelDescriptor.parser(), extensionRegistry);
if (labelsBuilder_ == null) {
ensureLabelsIsMutable();
labels_.add(m);
} else {
labelsBuilder_.addMessage(m);
}
break;
} // case 18
case 24:
{
metricKind_ = input.readEnum();
bitField0_ |= 0x00000008;
break;
} // case 24
case 32:
{
valueType_ = input.readEnum();
bitField0_ |= 0x00000010;
break;
} // case 32
case 42:
{
unit_ = input.readStringRequireUtf8();
bitField0_ |= 0x00000020;
break;
} // case 42
case 50:
{
description_ = input.readStringRequireUtf8();
bitField0_ |= 0x00000040;
break;
} // case 50
case 58:
{
displayName_ = input.readStringRequireUtf8();
bitField0_ |= 0x00000080;
break;
} // case 58
case 66:
{
type_ = input.readStringRequireUtf8();
bitField0_ |= 0x00000002;
break;
} // case 66
case 82:
{
input.readMessage(getMetadataFieldBuilder().getBuilder(), extensionRegistry);
bitField0_ |= 0x00000100;
break;
} // case 82
case 96:
{
launchStage_ = input.readEnum();
bitField0_ |= 0x00000200;
break;
} // case 96
case 106:
{
java.lang.String s = input.readStringRequireUtf8();
ensureMonitoredResourceTypesIsMutable();
monitoredResourceTypes_.add(s);
break;
} // case 106
default:
{
if (!super.parseUnknownField(input, extensionRegistry, tag)) {
done = true; // was an endgroup tag
}
break;
} // default:
} // switch (tag)
} // while (!done)
} catch (com.google.protobuf.InvalidProtocolBufferException e) {
throw e.unwrapIOException();
} finally {
onChanged();
} // finally
return this;
}
private int bitField0_;
private java.lang.Object name_ = "";
/**
*
*
*
*
* string name = 1;
*
* @return The bytes for name.
*/
public com.google.protobuf.ByteString getNameBytes() {
java.lang.Object ref = name_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8((java.lang.String) ref);
name_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
*
*
*
* The resource name of the metric descriptor.
*
*
* string name = 1;
*
* @param value The name to set.
* @return This builder for chaining.
*/
public Builder setName(java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
name_ = value;
bitField0_ |= 0x00000001;
onChanged();
return this;
}
/**
*
*
*
* The resource name of the metric descriptor.
*
*
* string name = 1;
*
* @return This builder for chaining.
*/
public Builder clearName() {
name_ = getDefaultInstance().getName();
bitField0_ = (bitField0_ & ~0x00000001);
onChanged();
return this;
}
/**
*
*
*
* The resource name of the metric descriptor.
*
*
* string name = 1;
*
* @param value The bytes for name to set.
* @return This builder for chaining.
*/
public Builder setNameBytes(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
checkByteStringIsUtf8(value);
name_ = value;
bitField0_ |= 0x00000001;
onChanged();
return this;
}
private java.lang.Object type_ = "";
/**
*
*
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
*
* string type = 8;
*
* @return The bytes for type.
*/
public com.google.protobuf.ByteString getTypeBytes() {
java.lang.Object ref = type_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8((java.lang.String) ref);
type_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
*
*
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
*
* string type = 8;
*
* @param value The type to set.
* @return This builder for chaining.
*/
public Builder setType(java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
type_ = value;
bitField0_ |= 0x00000002;
onChanged();
return this;
}
/**
*
*
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
*
* string type = 8;
*
* @return This builder for chaining.
*/
public Builder clearType() {
type_ = getDefaultInstance().getType();
bitField0_ = (bitField0_ & ~0x00000002);
onChanged();
return this;
}
/**
*
*
*
* The metric type, including its DNS name prefix. The type is not
* URL-encoded. All user-defined metric types have the DNS name
* `custom.googleapis.com` or `external.googleapis.com`. Metric types should
* use a natural hierarchical grouping. For example:
*
* "custom.googleapis.com/invoice/paid/amount"
* "external.googleapis.com/prometheus/up"
* "appengine.googleapis.com/http/server/response_latencies"
*
*
* string type = 8;
*
* @param value The bytes for type to set.
* @return This builder for chaining.
*/
public Builder setTypeBytes(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
checkByteStringIsUtf8(value);
type_ = value;
bitField0_ |= 0x00000002;
onChanged();
return this;
}
private java.util.List labels_ =
java.util.Collections.emptyList();
private void ensureLabelsIsMutable() {
if (!((bitField0_ & 0x00000004) != 0)) {
labels_ = new java.util.ArrayList(labels_);
bitField0_ |= 0x00000004;
}
}
private com.google.protobuf.RepeatedFieldBuilderV3<
com.google.api.LabelDescriptor,
com.google.api.LabelDescriptor.Builder,
com.google.api.LabelDescriptorOrBuilder>
labelsBuilder_;
/**
*
*
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
*
* repeated .google.api.LabelDescriptor labels = 2;
*/
public int getLabelsCount() {
if (labelsBuilder_ == null) {
return labels_.size();
} else {
return labelsBuilder_.getCount();
}
}
/**
*
*
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* The set of labels that can be used to describe a specific
* instance of this metric type. For example, the
* `appengine.googleapis.com/http/server/response_latencies` metric
* type has a label for the HTTP response code, `response_code`, so
* you can look at latencies for successful responses or just
* for responses that failed.
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @return The enum numeric value on the wire for metricKind.
*/
@java.lang.Override
public int getMetricKindValue() {
return metricKind_;
}
/**
*
*
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @param value The enum numeric value on the wire for metricKind to set.
* @return This builder for chaining.
*/
public Builder setMetricKindValue(int value) {
metricKind_ = value;
bitField0_ |= 0x00000008;
onChanged();
return this;
}
/**
*
*
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @return The metricKind.
*/
@java.lang.Override
public com.google.api.MetricDescriptor.MetricKind getMetricKind() {
com.google.api.MetricDescriptor.MetricKind result =
com.google.api.MetricDescriptor.MetricKind.forNumber(metricKind_);
return result == null ? com.google.api.MetricDescriptor.MetricKind.UNRECOGNIZED : result;
}
/**
*
*
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @param value The metricKind to set.
* @return This builder for chaining.
*/
public Builder setMetricKind(com.google.api.MetricDescriptor.MetricKind value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000008;
metricKind_ = value.getNumber();
onChanged();
return this;
}
/**
*
*
*
* Whether the metric records instantaneous values, changes to a value, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.MetricKind metric_kind = 3;
*
* @return This builder for chaining.
*/
public Builder clearMetricKind() {
bitField0_ = (bitField0_ & ~0x00000008);
metricKind_ = 0;
onChanged();
return this;
}
private int valueType_ = 0;
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.ValueType value_type = 4;
*
* @return The enum numeric value on the wire for valueType.
*/
@java.lang.Override
public int getValueTypeValue() {
return valueType_;
}
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.ValueType value_type = 4;
*
* @param value The enum numeric value on the wire for valueType to set.
* @return This builder for chaining.
*/
public Builder setValueTypeValue(int value) {
valueType_ = value;
bitField0_ |= 0x00000010;
onChanged();
return this;
}
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.ValueType value_type = 4;
*
* @return The valueType.
*/
@java.lang.Override
public com.google.api.MetricDescriptor.ValueType getValueType() {
com.google.api.MetricDescriptor.ValueType result =
com.google.api.MetricDescriptor.ValueType.forNumber(valueType_);
return result == null ? com.google.api.MetricDescriptor.ValueType.UNRECOGNIZED : result;
}
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
*
* .google.api.MetricDescriptor.ValueType value_type = 4;
*
* @param value The valueType to set.
* @return This builder for chaining.
*/
public Builder setValueType(com.google.api.MetricDescriptor.ValueType value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000010;
valueType_ = value.getNumber();
onChanged();
return this;
}
/**
*
*
*
* Whether the measurement is an integer, a floating-point number, etc.
* Some combinations of `metric_kind` and `value_type` might not be supported.
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
* is used alone, then the unit is equivalent to `1`. For examples,
* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @return The unit.
*/
public java.lang.String getUnit() {
java.lang.Object ref = unit_;
if (!(ref instanceof java.lang.String)) {
com.google.protobuf.ByteString bs = (com.google.protobuf.ByteString) ref;
java.lang.String s = bs.toStringUtf8();
unit_ = s;
return s;
} else {
return (java.lang.String) ref;
}
}
/**
*
*
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
* is used alone, then the unit is equivalent to `1`. For examples,
* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @return The bytes for unit.
*/
public com.google.protobuf.ByteString getUnitBytes() {
java.lang.Object ref = unit_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8((java.lang.String) ref);
unit_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
*
*
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
* is used alone, then the unit is equivalent to `1`. For examples,
* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @param value The unit to set.
* @return This builder for chaining.
*/
public Builder setUnit(java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
unit_ = value;
bitField0_ |= 0x00000020;
onChanged();
return this;
}
/**
*
*
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
* is used alone, then the unit is equivalent to `1`. For examples,
* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @return This builder for chaining.
*/
public Builder clearUnit() {
unit_ = getDefaultInstance().getUnit();
bitField0_ = (bitField0_ & ~0x00000020);
onChanged();
return this;
}
/**
*
*
*
* The units in which the metric value is reported. It is only applicable
* if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit`
* defines the representation of the stored metric values.
*
* Different systems might scale the values to be more easily displayed (so a
* value of `0.02kBy` _might_ be displayed as `20By`, and a value of
* `3523kBy` _might_ be displayed as `3.5MBy`). However, if the `unit` is
* `kBy`, then the value of the metric is always in thousands of bytes, no
* matter how it might be displayed.
*
* If you want a custom metric to record the exact number of CPU-seconds used
* by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` is
* `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005
* CPU-seconds, then the value is written as `12005`.
*
* Alternatively, if you want a custom metric to record data in a more
* granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is
* `ks{CPU}`, and then write the value `12.005` (which is `12005/1000`),
* or use `Kis{CPU}` and write `11.723` (which is `12005/1024`).
*
* The supported units are a subset of [The Unified Code for Units of
* Measure](https://unitsofmeasure.org/ucum.html) standard:
*
* **Basic units (UNIT)**
*
* * `bit` bit
* * `By` byte
* * `s` second
* * `min` minute
* * `h` hour
* * `d` day
* * `1` dimensionless
*
* **Prefixes (PREFIX)**
*
* * `k` kilo (10^3)
* * `M` mega (10^6)
* * `G` giga (10^9)
* * `T` tera (10^12)
* * `P` peta (10^15)
* * `E` exa (10^18)
* * `Z` zetta (10^21)
* * `Y` yotta (10^24)
*
* * `m` milli (10^-3)
* * `u` micro (10^-6)
* * `n` nano (10^-9)
* * `p` pico (10^-12)
* * `f` femto (10^-15)
* * `a` atto (10^-18)
* * `z` zepto (10^-21)
* * `y` yocto (10^-24)
*
* * `Ki` kibi (2^10)
* * `Mi` mebi (2^20)
* * `Gi` gibi (2^30)
* * `Ti` tebi (2^40)
* * `Pi` pebi (2^50)
*
* **Grammar**
*
* The grammar also includes these connectors:
*
* * `/` division or ratio (as an infix operator). For examples,
* `kBy/{email}` or `MiBy/10ms` (although you should almost never
* have `/s` in a metric `unit`; rates should always be computed at
* query time from the underlying cumulative or delta value).
* * `.` multiplication or composition (as an infix operator). For
* examples, `GBy.d` or `k{watt}.h`.
*
* The grammar for a unit is as follows:
*
* Expression = Component { "." Component } { "/" Component } ;
*
* Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
* | Annotation
* | "1"
* ;
*
* Annotation = "{" NAME "}" ;
*
* Notes:
*
* * `Annotation` is just a comment if it follows a `UNIT`. If the annotation
* is used alone, then the unit is equivalent to `1`. For examples,
* `{request}/s == 1/s`, `By{transmitted}/s == By/s`.
* * `NAME` is a sequence of non-blank printable ASCII characters not
* containing `{` or `}`.
* * `1` represents a unitary [dimensionless
* unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) of 1, such
* as in `1/s`. It is typically used when none of the basic units are
* appropriate. For example, "new users per day" can be represented as
* `1/d` or `{new-users}/d` (and a metric value `5` would mean "5 new
* users). Alternatively, "thousands of page views per day" would be
* represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric
* value of `5.3` would mean "5300 page views per day").
* * `%` represents dimensionless value of 1/100, and annotates values giving
* a percentage (so the metric values are typically in the range of 0..100,
* and a metric value `3` means "3 percent").
* * `10^2.%` indicates a metric contains a ratio, typically in the range
* 0..1, that will be multiplied by 100 and displayed as a percentage
* (so a metric value `0.03` means "3 percent").
*
*
* string unit = 5;
*
* @param value The bytes for unit to set.
* @return This builder for chaining.
*/
public Builder setUnitBytes(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
checkByteStringIsUtf8(value);
unit_ = value;
bitField0_ |= 0x00000020;
onChanged();
return this;
}
private java.lang.Object description_ = "";
/**
*
*
*
* A detailed description of the metric, which can be used in documentation.
*
* A detailed description of the metric, which can be used in documentation.
*
*
* string description = 6;
*
* @param value The bytes for description to set.
* @return This builder for chaining.
*/
public Builder setDescriptionBytes(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
checkByteStringIsUtf8(value);
description_ = value;
bitField0_ |= 0x00000040;
onChanged();
return this;
}
private java.lang.Object displayName_ = "";
/**
*
*
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
*
* string display_name = 7;
*
* @return The bytes for displayName.
*/
public com.google.protobuf.ByteString getDisplayNameBytes() {
java.lang.Object ref = displayName_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8((java.lang.String) ref);
displayName_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
*
*
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
*
* string display_name = 7;
*
* @param value The displayName to set.
* @return This builder for chaining.
*/
public Builder setDisplayName(java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
displayName_ = value;
bitField0_ |= 0x00000080;
onChanged();
return this;
}
/**
*
*
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
* A concise name for the metric, which can be displayed in user interfaces.
* Use sentence case without an ending period, for example "Request count".
* This field is optional but it is recommended to be set for any metrics
* associated with user-visible concepts, such as Quota.
*
*
* string display_name = 7;
*
* @param value The bytes for displayName to set.
* @return This builder for chaining.
*/
public Builder setDisplayNameBytes(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
checkByteStringIsUtf8(value);
displayName_ = value;
bitField0_ |= 0x00000080;
onChanged();
return this;
}
private com.google.api.MetricDescriptor.MetricDescriptorMetadata metadata_;
private com.google.protobuf.SingleFieldBuilderV3<
com.google.api.MetricDescriptor.MetricDescriptorMetadata,
com.google.api.MetricDescriptor.MetricDescriptorMetadata.Builder,
com.google.api.MetricDescriptor.MetricDescriptorMetadataOrBuilder>
metadataBuilder_;
/**
*
*
*
* Optional. Metadata which can be used to guide usage of the metric.
*
*
* .google.api.MetricDescriptor.MetricDescriptorMetadata metadata = 10;
*
* @return Whether the metadata field is set.
*/
public boolean hasMetadata() {
return ((bitField0_ & 0x00000100) != 0);
}
/**
*
*
*
* Optional. Metadata which can be used to guide usage of the metric.
*
* Optional. The launch stage of the metric definition.
*
*
* .google.api.LaunchStage launch_stage = 12;
*
* @return The enum numeric value on the wire for launchStage.
*/
@java.lang.Override
public int getLaunchStageValue() {
return launchStage_;
}
/**
*
*
*
* Optional. The launch stage of the metric definition.
*
*
* .google.api.LaunchStage launch_stage = 12;
*
* @param value The enum numeric value on the wire for launchStage to set.
* @return This builder for chaining.
*/
public Builder setLaunchStageValue(int value) {
launchStage_ = value;
bitField0_ |= 0x00000200;
onChanged();
return this;
}
/**
*
*
*
* Optional. The launch stage of the metric definition.
*
*
* .google.api.LaunchStage launch_stage = 12;
*
* @return The launchStage.
*/
@java.lang.Override
public com.google.api.LaunchStage getLaunchStage() {
com.google.api.LaunchStage result = com.google.api.LaunchStage.forNumber(launchStage_);
return result == null ? com.google.api.LaunchStage.UNRECOGNIZED : result;
}
/**
*
*
*
* Optional. The launch stage of the metric definition.
*
*
* .google.api.LaunchStage launch_stage = 12;
*
* @param value The launchStage to set.
* @return This builder for chaining.
*/
public Builder setLaunchStage(com.google.api.LaunchStage value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000200;
launchStage_ = value.getNumber();
onChanged();
return this;
}
/**
*
*
*
* Optional. The launch stage of the metric definition.
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @return A list containing the monitoredResourceTypes.
*/
public com.google.protobuf.ProtocolStringList getMonitoredResourceTypesList() {
monitoredResourceTypes_.makeImmutable();
return monitoredResourceTypes_;
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @return The count of monitoredResourceTypes.
*/
public int getMonitoredResourceTypesCount() {
return monitoredResourceTypes_.size();
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @param index The index of the element to return.
* @return The monitoredResourceTypes at the given index.
*/
public java.lang.String getMonitoredResourceTypes(int index) {
return monitoredResourceTypes_.get(index);
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @param index The index of the value to return.
* @return The bytes of the monitoredResourceTypes at the given index.
*/
public com.google.protobuf.ByteString getMonitoredResourceTypesBytes(int index) {
return monitoredResourceTypes_.getByteString(index);
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @param index The index to set the value at.
* @param value The monitoredResourceTypes to set.
* @return This builder for chaining.
*/
public Builder setMonitoredResourceTypes(int index, java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
ensureMonitoredResourceTypesIsMutable();
monitoredResourceTypes_.set(index, value);
bitField0_ |= 0x00000400;
onChanged();
return this;
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @param value The monitoredResourceTypes to add.
* @return This builder for chaining.
*/
public Builder addMonitoredResourceTypes(java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
ensureMonitoredResourceTypesIsMutable();
monitoredResourceTypes_.add(value);
bitField0_ |= 0x00000400;
onChanged();
return this;
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @param values The monitoredResourceTypes to add.
* @return This builder for chaining.
*/
public Builder addAllMonitoredResourceTypes(java.lang.Iterable values) {
ensureMonitoredResourceTypesIsMutable();
com.google.protobuf.AbstractMessageLite.Builder.addAll(values, monitoredResourceTypes_);
bitField0_ |= 0x00000400;
onChanged();
return this;
}
/**
*
*
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
* Read-only. If present, then a [time
* series][google.monitoring.v3.TimeSeries], which is identified partially by
* a metric type and a
* [MonitoredResourceDescriptor][google.api.MonitoredResourceDescriptor], that
* is associated with this metric type can only be associated with one of the
* monitored resource types listed here.
*
*
* repeated string monitored_resource_types = 13;
*
* @param value The bytes of the monitoredResourceTypes to add.
* @return This builder for chaining.
*/
public Builder addMonitoredResourceTypesBytes(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
checkByteStringIsUtf8(value);
ensureMonitoredResourceTypesIsMutable();
monitoredResourceTypes_.add(value);
bitField0_ |= 0x00000400;
onChanged();
return this;
}
@java.lang.Override
public final Builder setUnknownFields(final com.google.protobuf.UnknownFieldSet unknownFields) {
return super.setUnknownFields(unknownFields);
}
@java.lang.Override
public final Builder mergeUnknownFields(
final com.google.protobuf.UnknownFieldSet unknownFields) {
return super.mergeUnknownFields(unknownFields);
}
// @@protoc_insertion_point(builder_scope:google.api.MetricDescriptor)
}
// @@protoc_insertion_point(class_scope:google.api.MetricDescriptor)
private static final com.google.api.MetricDescriptor DEFAULT_INSTANCE;
static {
DEFAULT_INSTANCE = new com.google.api.MetricDescriptor();
}
public static com.google.api.MetricDescriptor getDefaultInstance() {
return DEFAULT_INSTANCE;
}
private static final com.google.protobuf.Parser PARSER =
new com.google.protobuf.AbstractParser() {
@java.lang.Override
public MetricDescriptor parsePartialFrom(
com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry)
throws com.google.protobuf.InvalidProtocolBufferException {
Builder builder = newBuilder();
try {
builder.mergeFrom(input, extensionRegistry);
} catch (com.google.protobuf.InvalidProtocolBufferException e) {
throw e.setUnfinishedMessage(builder.buildPartial());
} catch (com.google.protobuf.UninitializedMessageException e) {
throw e.asInvalidProtocolBufferException().setUnfinishedMessage(builder.buildPartial());
} catch (java.io.IOException e) {
throw new com.google.protobuf.InvalidProtocolBufferException(e)
.setUnfinishedMessage(builder.buildPartial());
}
return builder.buildPartial();
}
};
public static com.google.protobuf.Parser parser() {
return PARSER;
}
@java.lang.Override
public com.google.protobuf.Parser getParserForType() {
return PARSER;
}
@java.lang.Override
public com.google.api.MetricDescriptor getDefaultInstanceForType() {
return DEFAULT_INSTANCE;
}
}
