class HistogramDataPoint
Same name in this branch
- 11.1.x vendor/open-telemetry/sdk/Metrics/Data/HistogramDataPoint.php \OpenTelemetry\SDK\Metrics\Data\HistogramDataPoint
HistogramDataPoint is a single data point in a timeseries that describes the time-varying values of a Histogram. A Histogram contains summary statistics for a population of values, it may optionally contain the distribution of those values across a set of buckets. If the histogram contains the distribution of values, then both "explicit_bounds" and "bucket counts" fields must be defined. If the histogram does not contain the distribution of values, then both "explicit_bounds" and "bucket_counts" must be omitted and only "count" and "sum" are known.
Generated from protobuf message <code>opentelemetry.proto.metrics.v1.HistogramDataPoint</code>
Hierarchy
- class \Google\Protobuf\Internal\Message
- class \Opentelemetry\Proto\Metrics\V1\HistogramDataPoint extends \Google\Protobuf\Internal\Message
Expanded class hierarchy of HistogramDataPoint
1 file declares its use of HistogramDataPoint
- MetricConverter.php in vendor/
open-telemetry/ exporter-otlp/ MetricConverter.php
File
-
vendor/
open-telemetry/ gen-otlp-protobuf/ Opentelemetry/ Proto/ Metrics/ V1/ HistogramDataPoint.php, line 24
Namespace
Opentelemetry\Proto\Metrics\V1View source
class HistogramDataPoint extends \Google\Protobuf\Internal\Message {
/**
* The set of key/value pairs that uniquely identify the timeseries from
* where this point belongs. The list may be empty (may contain 0 elements).
* Attribute keys MUST be unique (it is not allowed to have more than one
* attribute with the same key).
*
* Generated from protobuf field <code>repeated .opentelemetry.proto.common.v1.KeyValue attributes = 9;</code>
*/
private $attributes;
/**
* StartTimeUnixNano is optional but strongly encouraged, see the
* the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
*
* Generated from protobuf field <code>fixed64 start_time_unix_nano = 2;</code>
*/
protected $start_time_unix_nano = 0;
/**
* TimeUnixNano is required, see the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
*
* Generated from protobuf field <code>fixed64 time_unix_nano = 3;</code>
*/
protected $time_unix_nano = 0;
/**
* count is the number of values in the population. Must be non-negative. This
* value must be equal to the sum of the "count" fields in buckets if a
* histogram is provided.
*
* Generated from protobuf field <code>fixed64 count = 4;</code>
*/
protected $count = 0;
/**
* sum of the values in the population. If count is zero then this field
* must be zero.
* Note: Sum should only be filled out when measuring non-negative discrete
* events, and is assumed to be monotonic over the values of these events.
* Negative events *can* be recorded, but sum should not be filled out when
* doing so. This is specifically to enforce compatibility w/ OpenMetrics,
* see: https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#histogram
*
* Generated from protobuf field <code>optional double sum = 5;</code>
*/
protected $sum = null;
/**
* bucket_counts is an optional field contains the count values of histogram
* for each bucket.
* The sum of the bucket_counts must equal the value in the count field.
* The number of elements in bucket_counts array must be by one greater than
* the number of elements in explicit_bounds array.
*
* Generated from protobuf field <code>repeated fixed64 bucket_counts = 6;</code>
*/
private $bucket_counts;
/**
* explicit_bounds specifies buckets with explicitly defined bounds for values.
* The boundaries for bucket at index i are:
* (-infinity, explicit_bounds[i]] for i == 0
* (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i < size(explicit_bounds)
* (explicit_bounds[i-1], +infinity) for i == size(explicit_bounds)
* The values in the explicit_bounds array must be strictly increasing.
* Histogram buckets are inclusive of their upper boundary, except the last
* bucket where the boundary is at infinity. This format is intentionally
* compatible with the OpenMetrics histogram definition.
*
* Generated from protobuf field <code>repeated double explicit_bounds = 7;</code>
*/
private $explicit_bounds;
/**
* (Optional) List of exemplars collected from
* measurements that were used to form the data point
*
* Generated from protobuf field <code>repeated .opentelemetry.proto.metrics.v1.Exemplar exemplars = 8;</code>
*/
private $exemplars;
/**
* Flags that apply to this specific data point. See DataPointFlags
* for the available flags and their meaning.
*
* Generated from protobuf field <code>uint32 flags = 10;</code>
*/
protected $flags = 0;
/**
* min is the minimum value over (start_time, end_time].
*
* Generated from protobuf field <code>optional double min = 11;</code>
*/
protected $min = null;
/**
* max is the maximum value over (start_time, end_time].
*
* Generated from protobuf field <code>optional double max = 12;</code>
*/
protected $max = null;
/**
* Constructor.
*
* @param array $data {
* Optional. Data for populating the Message object.
*
* @type \Opentelemetry\Proto\Common\V1\KeyValue[]|\Google\Protobuf\Internal\RepeatedField $attributes
* The set of key/value pairs that uniquely identify the timeseries from
* where this point belongs. The list may be empty (may contain 0 elements).
* Attribute keys MUST be unique (it is not allowed to have more than one
* attribute with the same key).
* @type int|string $start_time_unix_nano
* StartTimeUnixNano is optional but strongly encouraged, see the
* the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
* @type int|string $time_unix_nano
* TimeUnixNano is required, see the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
* @type int|string $count
* count is the number of values in the population. Must be non-negative. This
* value must be equal to the sum of the "count" fields in buckets if a
* histogram is provided.
* @type float $sum
* sum of the values in the population. If count is zero then this field
* must be zero.
* Note: Sum should only be filled out when measuring non-negative discrete
* events, and is assumed to be monotonic over the values of these events.
* Negative events *can* be recorded, but sum should not be filled out when
* doing so. This is specifically to enforce compatibility w/ OpenMetrics,
* see: https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#histogram
* @type int[]|string[]|\Google\Protobuf\Internal\RepeatedField $bucket_counts
* bucket_counts is an optional field contains the count values of histogram
* for each bucket.
* The sum of the bucket_counts must equal the value in the count field.
* The number of elements in bucket_counts array must be by one greater than
* the number of elements in explicit_bounds array.
* @type float[]|\Google\Protobuf\Internal\RepeatedField $explicit_bounds
* explicit_bounds specifies buckets with explicitly defined bounds for values.
* The boundaries for bucket at index i are:
* (-infinity, explicit_bounds[i]] for i == 0
* (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i < size(explicit_bounds)
* (explicit_bounds[i-1], +infinity) for i == size(explicit_bounds)
* The values in the explicit_bounds array must be strictly increasing.
* Histogram buckets are inclusive of their upper boundary, except the last
* bucket where the boundary is at infinity. This format is intentionally
* compatible with the OpenMetrics histogram definition.
* @type \Opentelemetry\Proto\Metrics\V1\Exemplar[]|\Google\Protobuf\Internal\RepeatedField $exemplars
* (Optional) List of exemplars collected from
* measurements that were used to form the data point
* @type int $flags
* Flags that apply to this specific data point. See DataPointFlags
* for the available flags and their meaning.
* @type float $min
* min is the minimum value over (start_time, end_time].
* @type float $max
* max is the maximum value over (start_time, end_time].
* }
*/
public function __construct($data = NULL) {
\GPBMetadata\Opentelemetry\Proto\Metrics\V1\Metrics::initOnce();
parent::__construct($data);
}
/**
* The set of key/value pairs that uniquely identify the timeseries from
* where this point belongs. The list may be empty (may contain 0 elements).
* Attribute keys MUST be unique (it is not allowed to have more than one
* attribute with the same key).
*
* Generated from protobuf field <code>repeated .opentelemetry.proto.common.v1.KeyValue attributes = 9;</code>
* @return \Google\Protobuf\Internal\RepeatedField
*/
public function getAttributes() {
return $this->attributes;
}
/**
* The set of key/value pairs that uniquely identify the timeseries from
* where this point belongs. The list may be empty (may contain 0 elements).
* Attribute keys MUST be unique (it is not allowed to have more than one
* attribute with the same key).
*
* Generated from protobuf field <code>repeated .opentelemetry.proto.common.v1.KeyValue attributes = 9;</code>
* @param \Opentelemetry\Proto\Common\V1\KeyValue[]|\Google\Protobuf\Internal\RepeatedField $var
* @return $this
*/
public function setAttributes($var) {
$arr = GPBUtil::checkRepeatedField($var, \Google\Protobuf\Internal\GPBType::MESSAGE, \Opentelemetry\Proto\Common\V1\KeyValue::class);
$this->attributes = $arr;
return $this;
}
/**
* StartTimeUnixNano is optional but strongly encouraged, see the
* the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
*
* Generated from protobuf field <code>fixed64 start_time_unix_nano = 2;</code>
* @return int|string
*/
public function getStartTimeUnixNano() {
return $this->start_time_unix_nano;
}
/**
* StartTimeUnixNano is optional but strongly encouraged, see the
* the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
*
* Generated from protobuf field <code>fixed64 start_time_unix_nano = 2;</code>
* @param int|string $var
* @return $this
*/
public function setStartTimeUnixNano($var) {
GPBUtil::checkUint64($var);
$this->start_time_unix_nano = $var;
return $this;
}
/**
* TimeUnixNano is required, see the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
*
* Generated from protobuf field <code>fixed64 time_unix_nano = 3;</code>
* @return int|string
*/
public function getTimeUnixNano() {
return $this->time_unix_nano;
}
/**
* TimeUnixNano is required, see the detailed comments above Metric.
* Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January
* 1970.
*
* Generated from protobuf field <code>fixed64 time_unix_nano = 3;</code>
* @param int|string $var
* @return $this
*/
public function setTimeUnixNano($var) {
GPBUtil::checkUint64($var);
$this->time_unix_nano = $var;
return $this;
}
/**
* count is the number of values in the population. Must be non-negative. This
* value must be equal to the sum of the "count" fields in buckets if a
* histogram is provided.
*
* Generated from protobuf field <code>fixed64 count = 4;</code>
* @return int|string
*/
public function getCount() {
return $this->count;
}
/**
* count is the number of values in the population. Must be non-negative. This
* value must be equal to the sum of the "count" fields in buckets if a
* histogram is provided.
*
* Generated from protobuf field <code>fixed64 count = 4;</code>
* @param int|string $var
* @return $this
*/
public function setCount($var) {
GPBUtil::checkUint64($var);
$this->count = $var;
return $this;
}
/**
* sum of the values in the population. If count is zero then this field
* must be zero.
* Note: Sum should only be filled out when measuring non-negative discrete
* events, and is assumed to be monotonic over the values of these events.
* Negative events *can* be recorded, but sum should not be filled out when
* doing so. This is specifically to enforce compatibility w/ OpenMetrics,
* see: https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#histogram
*
* Generated from protobuf field <code>optional double sum = 5;</code>
* @return float
*/
public function getSum() {
return isset($this->sum) ? $this->sum : 0.0;
}
public function hasSum() {
return isset($this->sum);
}
public function clearSum() {
unset($this->sum);
}
/**
* sum of the values in the population. If count is zero then this field
* must be zero.
* Note: Sum should only be filled out when measuring non-negative discrete
* events, and is assumed to be monotonic over the values of these events.
* Negative events *can* be recorded, but sum should not be filled out when
* doing so. This is specifically to enforce compatibility w/ OpenMetrics,
* see: https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#histogram
*
* Generated from protobuf field <code>optional double sum = 5;</code>
* @param float $var
* @return $this
*/
public function setSum($var) {
GPBUtil::checkDouble($var);
$this->sum = $var;
return $this;
}
/**
* bucket_counts is an optional field contains the count values of histogram
* for each bucket.
* The sum of the bucket_counts must equal the value in the count field.
* The number of elements in bucket_counts array must be by one greater than
* the number of elements in explicit_bounds array.
*
* Generated from protobuf field <code>repeated fixed64 bucket_counts = 6;</code>
* @return \Google\Protobuf\Internal\RepeatedField
*/
public function getBucketCounts() {
return $this->bucket_counts;
}
/**
* bucket_counts is an optional field contains the count values of histogram
* for each bucket.
* The sum of the bucket_counts must equal the value in the count field.
* The number of elements in bucket_counts array must be by one greater than
* the number of elements in explicit_bounds array.
*
* Generated from protobuf field <code>repeated fixed64 bucket_counts = 6;</code>
* @param int[]|string[]|\Google\Protobuf\Internal\RepeatedField $var
* @return $this
*/
public function setBucketCounts($var) {
$arr = GPBUtil::checkRepeatedField($var, \Google\Protobuf\Internal\GPBType::FIXED64);
$this->bucket_counts = $arr;
return $this;
}
/**
* explicit_bounds specifies buckets with explicitly defined bounds for values.
* The boundaries for bucket at index i are:
* (-infinity, explicit_bounds[i]] for i == 0
* (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i < size(explicit_bounds)
* (explicit_bounds[i-1], +infinity) for i == size(explicit_bounds)
* The values in the explicit_bounds array must be strictly increasing.
* Histogram buckets are inclusive of their upper boundary, except the last
* bucket where the boundary is at infinity. This format is intentionally
* compatible with the OpenMetrics histogram definition.
*
* Generated from protobuf field <code>repeated double explicit_bounds = 7;</code>
* @return \Google\Protobuf\Internal\RepeatedField
*/
public function getExplicitBounds() {
return $this->explicit_bounds;
}
/**
* explicit_bounds specifies buckets with explicitly defined bounds for values.
* The boundaries for bucket at index i are:
* (-infinity, explicit_bounds[i]] for i == 0
* (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i < size(explicit_bounds)
* (explicit_bounds[i-1], +infinity) for i == size(explicit_bounds)
* The values in the explicit_bounds array must be strictly increasing.
* Histogram buckets are inclusive of their upper boundary, except the last
* bucket where the boundary is at infinity. This format is intentionally
* compatible with the OpenMetrics histogram definition.
*
* Generated from protobuf field <code>repeated double explicit_bounds = 7;</code>
* @param float[]|\Google\Protobuf\Internal\RepeatedField $var
* @return $this
*/
public function setExplicitBounds($var) {
$arr = GPBUtil::checkRepeatedField($var, \Google\Protobuf\Internal\GPBType::DOUBLE);
$this->explicit_bounds = $arr;
return $this;
}
/**
* (Optional) List of exemplars collected from
* measurements that were used to form the data point
*
* Generated from protobuf field <code>repeated .opentelemetry.proto.metrics.v1.Exemplar exemplars = 8;</code>
* @return \Google\Protobuf\Internal\RepeatedField
*/
public function getExemplars() {
return $this->exemplars;
}
/**
* (Optional) List of exemplars collected from
* measurements that were used to form the data point
*
* Generated from protobuf field <code>repeated .opentelemetry.proto.metrics.v1.Exemplar exemplars = 8;</code>
* @param \Opentelemetry\Proto\Metrics\V1\Exemplar[]|\Google\Protobuf\Internal\RepeatedField $var
* @return $this
*/
public function setExemplars($var) {
$arr = GPBUtil::checkRepeatedField($var, \Google\Protobuf\Internal\GPBType::MESSAGE, \Opentelemetry\Proto\Metrics\V1\Exemplar::class);
$this->exemplars = $arr;
return $this;
}
/**
* Flags that apply to this specific data point. See DataPointFlags
* for the available flags and their meaning.
*
* Generated from protobuf field <code>uint32 flags = 10;</code>
* @return int
*/
public function getFlags() {
return $this->flags;
}
/**
* Flags that apply to this specific data point. See DataPointFlags
* for the available flags and their meaning.
*
* Generated from protobuf field <code>uint32 flags = 10;</code>
* @param int $var
* @return $this
*/
public function setFlags($var) {
GPBUtil::checkUint32($var);
$this->flags = $var;
return $this;
}
/**
* min is the minimum value over (start_time, end_time].
*
* Generated from protobuf field <code>optional double min = 11;</code>
* @return float
*/
public function getMin() {
return isset($this->min) ? $this->min : 0.0;
}
public function hasMin() {
return isset($this->min);
}
public function clearMin() {
unset($this->min);
}
/**
* min is the minimum value over (start_time, end_time].
*
* Generated from protobuf field <code>optional double min = 11;</code>
* @param float $var
* @return $this
*/
public function setMin($var) {
GPBUtil::checkDouble($var);
$this->min = $var;
return $this;
}
/**
* max is the maximum value over (start_time, end_time].
*
* Generated from protobuf field <code>optional double max = 12;</code>
* @return float
*/
public function getMax() {
return isset($this->max) ? $this->max : 0.0;
}
public function hasMax() {
return isset($this->max);
}
public function clearMax() {
unset($this->max);
}
/**
* max is the maximum value over (start_time, end_time].
*
* Generated from protobuf field <code>optional double max = 12;</code>
* @param float $var
* @return $this
*/
public function setMax($var) {
GPBUtil::checkDouble($var);
$this->max = $var;
return $this;
}
}Members
| Title Sort descending | Modifiers | Object type | Summary | Overriden Title |
|---|---|---|---|---|
| HistogramDataPoint::$attributes | private | property | The set of key/value pairs that uniquely identify the timeseries from where this point belongs. The list may be empty (may contain 0 elements). Attribute keys MUST be unique (it is not allowed to have more than one attribute with the same key). |
|
| HistogramDataPoint::$bucket_counts | private | property | bucket_counts is an optional field contains the count values of histogram for each bucket. The sum of the bucket_counts must equal the value in the count field. The number of elements in bucket_counts array must be by one greater than the number of… |
|
| HistogramDataPoint::$count | protected | property | count is the number of values in the population. Must be non-negative. This value must be equal to the sum of the "count" fields in buckets if a histogram is provided. |
|
| HistogramDataPoint::$exemplars | private | property | (Optional) List of exemplars collected from measurements that were used to form the data point |
|
| HistogramDataPoint::$explicit_bounds | private | property | explicit_bounds specifies buckets with explicitly defined bounds for values. The boundaries for bucket at index i are: (-infinity, explicit_bounds[i]] for i == 0 (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i <… |
|
| HistogramDataPoint::$flags | protected | property | Flags that apply to this specific data point. See DataPointFlags for the available flags and their meaning. |
|
| HistogramDataPoint::$max | protected | property | max is the maximum value over (start_time, end_time]. | |
| HistogramDataPoint::$min | protected | property | min is the minimum value over (start_time, end_time]. | |
| HistogramDataPoint::$start_time_unix_nano | protected | property | StartTimeUnixNano is optional but strongly encouraged, see the the detailed comments above Metric. Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January 1970. |
|
| HistogramDataPoint::$sum | protected | property | sum of the values in the population. If count is zero then this field must be zero. Note: Sum should only be filled out when measuring non-negative discrete events, and is assumed to be monotonic over the values of these events. Negative events *can*… |
|
| HistogramDataPoint::$time_unix_nano | protected | property | TimeUnixNano is required, see the detailed comments above Metric. Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January 1970. |
|
| HistogramDataPoint::clearMax | public | function | ||
| HistogramDataPoint::clearMin | public | function | ||
| HistogramDataPoint::clearSum | public | function | ||
| HistogramDataPoint::getAttributes | public | function | The set of key/value pairs that uniquely identify the timeseries from where this point belongs. The list may be empty (may contain 0 elements). Attribute keys MUST be unique (it is not allowed to have more than one attribute with the same key). |
|
| HistogramDataPoint::getBucketCounts | public | function | bucket_counts is an optional field contains the count values of histogram for each bucket. The sum of the bucket_counts must equal the value in the count field. The number of elements in bucket_counts array must be by one greater than the number of… |
|
| HistogramDataPoint::getCount | public | function | count is the number of values in the population. Must be non-negative. This value must be equal to the sum of the "count" fields in buckets if a histogram is provided. |
|
| HistogramDataPoint::getExemplars | public | function | (Optional) List of exemplars collected from measurements that were used to form the data point |
|
| HistogramDataPoint::getExplicitBounds | public | function | explicit_bounds specifies buckets with explicitly defined bounds for values. The boundaries for bucket at index i are: (-infinity, explicit_bounds[i]] for i == 0 (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i <… |
|
| HistogramDataPoint::getFlags | public | function | Flags that apply to this specific data point. See DataPointFlags for the available flags and their meaning. |
|
| HistogramDataPoint::getMax | public | function | max is the maximum value over (start_time, end_time]. | |
| HistogramDataPoint::getMin | public | function | min is the minimum value over (start_time, end_time]. | |
| HistogramDataPoint::getStartTimeUnixNano | public | function | StartTimeUnixNano is optional but strongly encouraged, see the the detailed comments above Metric. Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January 1970. |
|
| HistogramDataPoint::getSum | public | function | sum of the values in the population. If count is zero then this field must be zero. Note: Sum should only be filled out when measuring non-negative discrete events, and is assumed to be monotonic over the values of these events. Negative events *can*… |
|
| HistogramDataPoint::getTimeUnixNano | public | function | TimeUnixNano is required, see the detailed comments above Metric. Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January 1970. |
|
| HistogramDataPoint::hasMax | public | function | ||
| HistogramDataPoint::hasMin | public | function | ||
| HistogramDataPoint::hasSum | public | function | ||
| HistogramDataPoint::setAttributes | public | function | The set of key/value pairs that uniquely identify the timeseries from where this point belongs. The list may be empty (may contain 0 elements). Attribute keys MUST be unique (it is not allowed to have more than one attribute with the same key). |
|
| HistogramDataPoint::setBucketCounts | public | function | bucket_counts is an optional field contains the count values of histogram for each bucket. The sum of the bucket_counts must equal the value in the count field. The number of elements in bucket_counts array must be by one greater than the number of… |
|
| HistogramDataPoint::setCount | public | function | count is the number of values in the population. Must be non-negative. This value must be equal to the sum of the "count" fields in buckets if a histogram is provided. |
|
| HistogramDataPoint::setExemplars | public | function | (Optional) List of exemplars collected from measurements that were used to form the data point |
|
| HistogramDataPoint::setExplicitBounds | public | function | explicit_bounds specifies buckets with explicitly defined bounds for values. The boundaries for bucket at index i are: (-infinity, explicit_bounds[i]] for i == 0 (explicit_bounds[i-1], explicit_bounds[i]] for 0 < i <… |
|
| HistogramDataPoint::setFlags | public | function | Flags that apply to this specific data point. See DataPointFlags for the available flags and their meaning. |
|
| HistogramDataPoint::setMax | public | function | max is the maximum value over (start_time, end_time]. | |
| HistogramDataPoint::setMin | public | function | min is the minimum value over (start_time, end_time]. | |
| HistogramDataPoint::setStartTimeUnixNano | public | function | StartTimeUnixNano is optional but strongly encouraged, see the the detailed comments above Metric. Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January 1970. |
|
| HistogramDataPoint::setSum | public | function | sum of the values in the population. If count is zero then this field must be zero. Note: Sum should only be filled out when measuring non-negative discrete events, and is assumed to be monotonic over the values of these events. Negative events *can*… |
|
| HistogramDataPoint::setTimeUnixNano | public | function | TimeUnixNano is required, see the detailed comments above Metric. Value is UNIX Epoch time in nanoseconds since 00:00:00 UTC on 1 January 1970. |
|
| HistogramDataPoint::__construct | public | function | Constructor. | Overrides Message::__construct |
| Message::$desc | private | property | @ignore | |
| Message::$unknown | private | property | ||
| Message::appendHelper | private | function | ||
| Message::byteSize | public | function | @ignore | |
| Message::clear | public | function | Clear all containing fields. | |
| Message::convertJsonValueToProtoValue | private | function | ||
| Message::defaultValue | private | function | @ignore | |
| Message::discardUnknownFields | public | function | Clear all unknown fields previously parsed. | |
| Message::existField | private | function | @ignore | |
| Message::fieldByteSize | private | function | @ignore | |
| Message::fieldDataOnlyByteSize | private | function | @ignore | |
| Message::fieldDataOnlyJsonByteSize | private | function | @ignore | |
| Message::fieldJsonByteSize | private | function | @ignore | |
| Message::hasOneof | protected | function | ||
| Message::initWithDescriptor | private | function | @ignore | |
| Message::initWithGeneratedPool | private | function | @ignore | |
| Message::jsonByteSize | public | function | @ignore | |
| Message::kvUpdateHelper | private | function | ||
| Message::mergeFrom | public | function | Merges the contents of the specified message into current message. | |
| Message::mergeFromArray | protected | function | Populates the message from a user-supplied PHP array. Array keys correspond to Message properties and nested message properties. |
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| Message::mergeFromArrayJsonImpl | private | function | ||
| Message::mergeFromJsonArray | protected | function | ||
| Message::mergeFromJsonString | public | function | Parses a json string to protobuf message. | |
| Message::mergeFromString | public | function | Parses a protocol buffer contained in a string. | |
| Message::normalizeArrayElementsToMessageType | private static | function | Tries to normalize the elements in $value into a provided protobuf wrapper type $class. If $value is any type other than array, we do not do any conversion, and instead rely on the existing protobuf type checking. If $value is an array, we process… |
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| Message::normalizeToMessageType | private static | function | Tries to normalize $value into a provided protobuf wrapper type $class. If $value is any type other than an object, we attempt to construct an instance of $class and assign $value to it using the setValue method shared by all wrapper types. |
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| Message::parseFieldFromStream | private | function | @ignore | |
| Message::parseFieldFromStreamNoTag | private static | function | @ignore | |
| Message::parseFromJsonStream | public | function | @ignore | |
| Message::parseFromStream | public | function | @ignore | |
| Message::readOneof | protected | function | ||
| Message::readWrapperValue | protected | function | ||
| Message::repeatedFieldDataOnlyByteSize | private | function | @ignore | |
| Message::serializeFieldToJsonStream | private | function | @ignore | |
| Message::serializeFieldToStream | private | function | @ignore | |
| Message::serializeMapFieldToStream | private | function | @ignore | |
| Message::serializeRepeatedFieldToStream | private | function | @ignore | |
| Message::serializeSingularFieldToStream | private | function | @ignore | |
| Message::serializeToJsonStream | public | function | @ignore | |
| Message::serializeToJsonString | public | function | Serialize the message to json string. | |
| Message::serializeToStream | public | function | @ignore | |
| Message::serializeToString | public | function | Serialize the message to string. | |
| Message::skipField | private | function | @ignore | |
| Message::whichOneof | protected | function | ||
| Message::writeOneof | protected | function | ||
| Message::writeWrapperValue | protected | function | ||
| Message::__debugInfo | public | function |