/* Generated by the protocol buffer compiler. DO NOT EDIT! */ /* Generated from: opentelemetry/proto/metrics/v1/metrics.proto */ /* Do not generate deprecated warnings for self */ #ifndef PROTOBUF_C__NO_DEPRECATED #define PROTOBUF_C__NO_DEPRECATED #endif #include "opentelemetry/proto/metrics/v1/metrics.pb-c.h" void opentelemetry__proto__metrics__v1__metrics_data__init (Opentelemetry__Proto__Metrics__V1__MetricsData *message) { static const Opentelemetry__Proto__Metrics__V1__MetricsData init_value = OPENTELEMETRY__PROTO__METRICS__V1__METRICS_DATA__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__metrics_data__get_packed_size (const Opentelemetry__Proto__Metrics__V1__MetricsData *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metrics_data__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__metrics_data__pack (const Opentelemetry__Proto__Metrics__V1__MetricsData *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metrics_data__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__metrics_data__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__MetricsData *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metrics_data__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__MetricsData * opentelemetry__proto__metrics__v1__metrics_data__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__MetricsData *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__metrics_data__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__metrics_data__free_unpacked (Opentelemetry__Proto__Metrics__V1__MetricsData *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metrics_data__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__resource_metrics__init (Opentelemetry__Proto__Metrics__V1__ResourceMetrics *message) { static const Opentelemetry__Proto__Metrics__V1__ResourceMetrics init_value = OPENTELEMETRY__PROTO__METRICS__V1__RESOURCE_METRICS__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__resource_metrics__get_packed_size (const Opentelemetry__Proto__Metrics__V1__ResourceMetrics *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__resource_metrics__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__resource_metrics__pack (const Opentelemetry__Proto__Metrics__V1__ResourceMetrics *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__resource_metrics__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__resource_metrics__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__ResourceMetrics *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__resource_metrics__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__ResourceMetrics * opentelemetry__proto__metrics__v1__resource_metrics__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__ResourceMetrics *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__resource_metrics__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__resource_metrics__free_unpacked (Opentelemetry__Proto__Metrics__V1__ResourceMetrics *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__resource_metrics__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__scope_metrics__init (Opentelemetry__Proto__Metrics__V1__ScopeMetrics *message) { static const Opentelemetry__Proto__Metrics__V1__ScopeMetrics init_value = OPENTELEMETRY__PROTO__METRICS__V1__SCOPE_METRICS__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__scope_metrics__get_packed_size (const Opentelemetry__Proto__Metrics__V1__ScopeMetrics *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__scope_metrics__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__scope_metrics__pack (const Opentelemetry__Proto__Metrics__V1__ScopeMetrics *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__scope_metrics__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__scope_metrics__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__ScopeMetrics *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__scope_metrics__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__ScopeMetrics * opentelemetry__proto__metrics__v1__scope_metrics__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__ScopeMetrics *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__scope_metrics__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__scope_metrics__free_unpacked (Opentelemetry__Proto__Metrics__V1__ScopeMetrics *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__scope_metrics__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__metric__init (Opentelemetry__Proto__Metrics__V1__Metric *message) { static const Opentelemetry__Proto__Metrics__V1__Metric init_value = OPENTELEMETRY__PROTO__METRICS__V1__METRIC__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__metric__get_packed_size (const Opentelemetry__Proto__Metrics__V1__Metric *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metric__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__metric__pack (const Opentelemetry__Proto__Metrics__V1__Metric *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metric__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__metric__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__Metric *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metric__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__Metric * opentelemetry__proto__metrics__v1__metric__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__Metric *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__metric__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__metric__free_unpacked (Opentelemetry__Proto__Metrics__V1__Metric *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__metric__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__gauge__init (Opentelemetry__Proto__Metrics__V1__Gauge *message) { static const Opentelemetry__Proto__Metrics__V1__Gauge init_value = OPENTELEMETRY__PROTO__METRICS__V1__GAUGE__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__gauge__get_packed_size (const Opentelemetry__Proto__Metrics__V1__Gauge *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__gauge__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__gauge__pack (const Opentelemetry__Proto__Metrics__V1__Gauge *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__gauge__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__gauge__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__Gauge *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__gauge__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__Gauge * opentelemetry__proto__metrics__v1__gauge__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__Gauge *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__gauge__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__gauge__free_unpacked (Opentelemetry__Proto__Metrics__V1__Gauge *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__gauge__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__sum__init (Opentelemetry__Proto__Metrics__V1__Sum *message) { static const Opentelemetry__Proto__Metrics__V1__Sum init_value = OPENTELEMETRY__PROTO__METRICS__V1__SUM__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__sum__get_packed_size (const Opentelemetry__Proto__Metrics__V1__Sum *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__sum__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__sum__pack (const Opentelemetry__Proto__Metrics__V1__Sum *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__sum__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__sum__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__Sum *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__sum__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__Sum * opentelemetry__proto__metrics__v1__sum__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__Sum *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__sum__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__sum__free_unpacked (Opentelemetry__Proto__Metrics__V1__Sum *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__sum__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__histogram__init (Opentelemetry__Proto__Metrics__V1__Histogram *message) { static const Opentelemetry__Proto__Metrics__V1__Histogram init_value = OPENTELEMETRY__PROTO__METRICS__V1__HISTOGRAM__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__histogram__get_packed_size (const Opentelemetry__Proto__Metrics__V1__Histogram *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__histogram__pack (const Opentelemetry__Proto__Metrics__V1__Histogram *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__histogram__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__Histogram *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__Histogram * opentelemetry__proto__metrics__v1__histogram__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__Histogram *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__histogram__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__histogram__free_unpacked (Opentelemetry__Proto__Metrics__V1__Histogram *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__exponential_histogram__init (Opentelemetry__Proto__Metrics__V1__ExponentialHistogram *message) { static const Opentelemetry__Proto__Metrics__V1__ExponentialHistogram init_value = OPENTELEMETRY__PROTO__METRICS__V1__EXPONENTIAL_HISTOGRAM__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__exponential_histogram__get_packed_size (const Opentelemetry__Proto__Metrics__V1__ExponentialHistogram *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__exponential_histogram__pack (const Opentelemetry__Proto__Metrics__V1__ExponentialHistogram *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__exponential_histogram__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__ExponentialHistogram *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__ExponentialHistogram * opentelemetry__proto__metrics__v1__exponential_histogram__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__ExponentialHistogram *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__exponential_histogram__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__exponential_histogram__free_unpacked (Opentelemetry__Proto__Metrics__V1__ExponentialHistogram *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__summary__init (Opentelemetry__Proto__Metrics__V1__Summary *message) { static const Opentelemetry__Proto__Metrics__V1__Summary init_value = OPENTELEMETRY__PROTO__METRICS__V1__SUMMARY__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__summary__get_packed_size (const Opentelemetry__Proto__Metrics__V1__Summary *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__summary__pack (const Opentelemetry__Proto__Metrics__V1__Summary *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__summary__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__Summary *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__Summary * opentelemetry__proto__metrics__v1__summary__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__Summary *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__summary__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__summary__free_unpacked (Opentelemetry__Proto__Metrics__V1__Summary *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__number_data_point__init (Opentelemetry__Proto__Metrics__V1__NumberDataPoint *message) { static const Opentelemetry__Proto__Metrics__V1__NumberDataPoint init_value = OPENTELEMETRY__PROTO__METRICS__V1__NUMBER_DATA_POINT__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__number_data_point__get_packed_size (const Opentelemetry__Proto__Metrics__V1__NumberDataPoint *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__number_data_point__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__number_data_point__pack (const Opentelemetry__Proto__Metrics__V1__NumberDataPoint *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__number_data_point__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__number_data_point__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__NumberDataPoint *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__number_data_point__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__NumberDataPoint * opentelemetry__proto__metrics__v1__number_data_point__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__NumberDataPoint *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__number_data_point__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__number_data_point__free_unpacked (Opentelemetry__Proto__Metrics__V1__NumberDataPoint *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__number_data_point__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__histogram_data_point__init (Opentelemetry__Proto__Metrics__V1__HistogramDataPoint *message) { static const Opentelemetry__Proto__Metrics__V1__HistogramDataPoint init_value = OPENTELEMETRY__PROTO__METRICS__V1__HISTOGRAM_DATA_POINT__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__histogram_data_point__get_packed_size (const Opentelemetry__Proto__Metrics__V1__HistogramDataPoint *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram_data_point__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__histogram_data_point__pack (const Opentelemetry__Proto__Metrics__V1__HistogramDataPoint *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram_data_point__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__histogram_data_point__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__HistogramDataPoint *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram_data_point__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__HistogramDataPoint * opentelemetry__proto__metrics__v1__histogram_data_point__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__HistogramDataPoint *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__histogram_data_point__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__histogram_data_point__free_unpacked (Opentelemetry__Proto__Metrics__V1__HistogramDataPoint *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__histogram_data_point__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__init (Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets *message) { static const Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets init_value = OPENTELEMETRY__PROTO__METRICS__V1__EXPONENTIAL_HISTOGRAM_DATA_POINT__BUCKETS__INIT; *message = init_value; } void opentelemetry__proto__metrics__v1__exponential_histogram_data_point__init (Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint *message) { static const Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint init_value = OPENTELEMETRY__PROTO__METRICS__V1__EXPONENTIAL_HISTOGRAM_DATA_POINT__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__exponential_histogram_data_point__get_packed_size (const Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__exponential_histogram_data_point__pack (const Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__exponential_histogram_data_point__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint * opentelemetry__proto__metrics__v1__exponential_histogram_data_point__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__exponential_histogram_data_point__free_unpacked (Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__init (Opentelemetry__Proto__Metrics__V1__SummaryDataPoint__ValueAtQuantile *message) { static const Opentelemetry__Proto__Metrics__V1__SummaryDataPoint__ValueAtQuantile init_value = OPENTELEMETRY__PROTO__METRICS__V1__SUMMARY_DATA_POINT__VALUE_AT_QUANTILE__INIT; *message = init_value; } void opentelemetry__proto__metrics__v1__summary_data_point__init (Opentelemetry__Proto__Metrics__V1__SummaryDataPoint *message) { static const Opentelemetry__Proto__Metrics__V1__SummaryDataPoint init_value = OPENTELEMETRY__PROTO__METRICS__V1__SUMMARY_DATA_POINT__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__summary_data_point__get_packed_size (const Opentelemetry__Proto__Metrics__V1__SummaryDataPoint *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary_data_point__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__summary_data_point__pack (const Opentelemetry__Proto__Metrics__V1__SummaryDataPoint *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary_data_point__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__summary_data_point__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__SummaryDataPoint *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary_data_point__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__SummaryDataPoint * opentelemetry__proto__metrics__v1__summary_data_point__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__SummaryDataPoint *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__summary_data_point__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__summary_data_point__free_unpacked (Opentelemetry__Proto__Metrics__V1__SummaryDataPoint *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__summary_data_point__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void opentelemetry__proto__metrics__v1__exemplar__init (Opentelemetry__Proto__Metrics__V1__Exemplar *message) { static const Opentelemetry__Proto__Metrics__V1__Exemplar init_value = OPENTELEMETRY__PROTO__METRICS__V1__EXEMPLAR__INIT; *message = init_value; } size_t opentelemetry__proto__metrics__v1__exemplar__get_packed_size (const Opentelemetry__Proto__Metrics__V1__Exemplar *message) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exemplar__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t opentelemetry__proto__metrics__v1__exemplar__pack (const Opentelemetry__Proto__Metrics__V1__Exemplar *message, uint8_t *out) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exemplar__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t opentelemetry__proto__metrics__v1__exemplar__pack_to_buffer (const Opentelemetry__Proto__Metrics__V1__Exemplar *message, ProtobufCBuffer *buffer) { assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exemplar__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Opentelemetry__Proto__Metrics__V1__Exemplar * opentelemetry__proto__metrics__v1__exemplar__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Opentelemetry__Proto__Metrics__V1__Exemplar *) protobuf_c_message_unpack (&opentelemetry__proto__metrics__v1__exemplar__descriptor, allocator, len, data); } void opentelemetry__proto__metrics__v1__exemplar__free_unpacked (Opentelemetry__Proto__Metrics__V1__Exemplar *message, ProtobufCAllocator *allocator) { if(!message) return; assert(message->base.descriptor == &opentelemetry__proto__metrics__v1__exemplar__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__metrics_data__field_descriptors[1] = { { "resource_metrics", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__MetricsData, n_resource_metrics), offsetof(Opentelemetry__Proto__Metrics__V1__MetricsData, resource_metrics), &opentelemetry__proto__metrics__v1__resource_metrics__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__metrics_data__field_indices_by_name[] = { 0, /* field[0] = resource_metrics */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__metrics_data__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__metrics_data__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.MetricsData", "MetricsData", "Opentelemetry__Proto__Metrics__V1__MetricsData", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__MetricsData), 1, opentelemetry__proto__metrics__v1__metrics_data__field_descriptors, opentelemetry__proto__metrics__v1__metrics_data__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__metrics_data__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__metrics_data__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__resource_metrics__field_descriptors[3] = { { "resource", 1, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ResourceMetrics, resource), &opentelemetry__proto__resource__v1__resource__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "scope_metrics", 2, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__ResourceMetrics, n_scope_metrics), offsetof(Opentelemetry__Proto__Metrics__V1__ResourceMetrics, scope_metrics), &opentelemetry__proto__metrics__v1__scope_metrics__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "schema_url", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ResourceMetrics, schema_url), NULL, &protobuf_c_empty_string, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__resource_metrics__field_indices_by_name[] = { 0, /* field[0] = resource */ 2, /* field[2] = schema_url */ 1, /* field[1] = scope_metrics */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__resource_metrics__number_ranges[1 + 1] = { { 1, 0 }, { 0, 3 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__resource_metrics__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.ResourceMetrics", "ResourceMetrics", "Opentelemetry__Proto__Metrics__V1__ResourceMetrics", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__ResourceMetrics), 3, opentelemetry__proto__metrics__v1__resource_metrics__field_descriptors, opentelemetry__proto__metrics__v1__resource_metrics__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__resource_metrics__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__resource_metrics__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__scope_metrics__field_descriptors[3] = { { "scope", 1, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ScopeMetrics, scope), &opentelemetry__proto__common__v1__instrumentation_scope__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "metrics", 2, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__ScopeMetrics, n_metrics), offsetof(Opentelemetry__Proto__Metrics__V1__ScopeMetrics, metrics), &opentelemetry__proto__metrics__v1__metric__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "schema_url", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ScopeMetrics, schema_url), NULL, &protobuf_c_empty_string, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__scope_metrics__field_indices_by_name[] = { 1, /* field[1] = metrics */ 2, /* field[2] = schema_url */ 0, /* field[0] = scope */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__scope_metrics__number_ranges[1 + 1] = { { 1, 0 }, { 0, 3 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__scope_metrics__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.ScopeMetrics", "ScopeMetrics", "Opentelemetry__Proto__Metrics__V1__ScopeMetrics", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__ScopeMetrics), 3, opentelemetry__proto__metrics__v1__scope_metrics__field_descriptors, opentelemetry__proto__metrics__v1__scope_metrics__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__scope_metrics__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__scope_metrics__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__metric__field_descriptors[8] = { { "name", 1, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Metric, name), NULL, &protobuf_c_empty_string, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "description", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Metric, description), NULL, &protobuf_c_empty_string, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "unit", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Metric, unit), NULL, &protobuf_c_empty_string, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "gauge", 5, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Metric, data_case), offsetof(Opentelemetry__Proto__Metrics__V1__Metric, gauge), &opentelemetry__proto__metrics__v1__gauge__descriptor, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "sum", 7, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Metric, data_case), offsetof(Opentelemetry__Proto__Metrics__V1__Metric, sum), &opentelemetry__proto__metrics__v1__sum__descriptor, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "histogram", 9, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Metric, data_case), offsetof(Opentelemetry__Proto__Metrics__V1__Metric, histogram), &opentelemetry__proto__metrics__v1__histogram__descriptor, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "exponential_histogram", 10, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Metric, data_case), offsetof(Opentelemetry__Proto__Metrics__V1__Metric, exponential_histogram), &opentelemetry__proto__metrics__v1__exponential_histogram__descriptor, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "summary", 11, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Metric, data_case), offsetof(Opentelemetry__Proto__Metrics__V1__Metric, summary), &opentelemetry__proto__metrics__v1__summary__descriptor, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__metric__field_indices_by_name[] = { 1, /* field[1] = description */ 6, /* field[6] = exponential_histogram */ 3, /* field[3] = gauge */ 5, /* field[5] = histogram */ 0, /* field[0] = name */ 4, /* field[4] = sum */ 7, /* field[7] = summary */ 2, /* field[2] = unit */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__metric__number_ranges[4 + 1] = { { 1, 0 }, { 5, 3 }, { 7, 4 }, { 9, 5 }, { 0, 8 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__metric__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.Metric", "Metric", "Opentelemetry__Proto__Metrics__V1__Metric", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__Metric), 8, opentelemetry__proto__metrics__v1__metric__field_descriptors, opentelemetry__proto__metrics__v1__metric__field_indices_by_name, 4, opentelemetry__proto__metrics__v1__metric__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__metric__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__gauge__field_descriptors[1] = { { "data_points", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Gauge, n_data_points), offsetof(Opentelemetry__Proto__Metrics__V1__Gauge, data_points), &opentelemetry__proto__metrics__v1__number_data_point__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__gauge__field_indices_by_name[] = { 0, /* field[0] = data_points */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__gauge__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__gauge__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.Gauge", "Gauge", "Opentelemetry__Proto__Metrics__V1__Gauge", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__Gauge), 1, opentelemetry__proto__metrics__v1__gauge__field_descriptors, opentelemetry__proto__metrics__v1__gauge__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__gauge__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__gauge__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__sum__field_descriptors[3] = { { "data_points", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Sum, n_data_points), offsetof(Opentelemetry__Proto__Metrics__V1__Sum, data_points), &opentelemetry__proto__metrics__v1__number_data_point__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "aggregation_temporality", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_ENUM, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Sum, aggregation_temporality), &opentelemetry__proto__metrics__v1__aggregation_temporality__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "is_monotonic", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_BOOL, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Sum, is_monotonic), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__sum__field_indices_by_name[] = { 1, /* field[1] = aggregation_temporality */ 0, /* field[0] = data_points */ 2, /* field[2] = is_monotonic */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__sum__number_ranges[1 + 1] = { { 1, 0 }, { 0, 3 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__sum__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.Sum", "Sum", "Opentelemetry__Proto__Metrics__V1__Sum", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__Sum), 3, opentelemetry__proto__metrics__v1__sum__field_descriptors, opentelemetry__proto__metrics__v1__sum__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__sum__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__sum__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__histogram__field_descriptors[2] = { { "data_points", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Histogram, n_data_points), offsetof(Opentelemetry__Proto__Metrics__V1__Histogram, data_points), &opentelemetry__proto__metrics__v1__histogram_data_point__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "aggregation_temporality", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_ENUM, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Histogram, aggregation_temporality), &opentelemetry__proto__metrics__v1__aggregation_temporality__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__histogram__field_indices_by_name[] = { 1, /* field[1] = aggregation_temporality */ 0, /* field[0] = data_points */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__histogram__number_ranges[1 + 1] = { { 1, 0 }, { 0, 2 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__histogram__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.Histogram", "Histogram", "Opentelemetry__Proto__Metrics__V1__Histogram", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__Histogram), 2, opentelemetry__proto__metrics__v1__histogram__field_descriptors, opentelemetry__proto__metrics__v1__histogram__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__histogram__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__histogram__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__exponential_histogram__field_descriptors[2] = { { "data_points", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogram, n_data_points), offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogram, data_points), &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "aggregation_temporality", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_ENUM, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogram, aggregation_temporality), &opentelemetry__proto__metrics__v1__aggregation_temporality__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__exponential_histogram__field_indices_by_name[] = { 1, /* field[1] = aggregation_temporality */ 0, /* field[0] = data_points */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__exponential_histogram__number_ranges[1 + 1] = { { 1, 0 }, { 0, 2 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__exponential_histogram__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.ExponentialHistogram", "ExponentialHistogram", "Opentelemetry__Proto__Metrics__V1__ExponentialHistogram", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogram), 2, opentelemetry__proto__metrics__v1__exponential_histogram__field_descriptors, opentelemetry__proto__metrics__v1__exponential_histogram__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__exponential_histogram__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__exponential_histogram__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__summary__field_descriptors[1] = { { "data_points", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Summary, n_data_points), offsetof(Opentelemetry__Proto__Metrics__V1__Summary, data_points), &opentelemetry__proto__metrics__v1__summary_data_point__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__summary__field_indices_by_name[] = { 0, /* field[0] = data_points */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__summary__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__summary__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.Summary", "Summary", "Opentelemetry__Proto__Metrics__V1__Summary", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__Summary), 1, opentelemetry__proto__metrics__v1__summary__field_descriptors, opentelemetry__proto__metrics__v1__summary__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__summary__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__summary__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__number_data_point__field_descriptors[7] = { { "start_time_unix_nano", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, start_time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "time_unix_nano", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "as_double", 4, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, value_case), offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, as_double), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "exemplars", 5, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, n_exemplars), offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, exemplars), &opentelemetry__proto__metrics__v1__exemplar__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "as_int", 6, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_SFIXED64, offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, value_case), offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, as_int), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "attributes", 7, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, n_attributes), offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, attributes), &opentelemetry__proto__common__v1__key_value__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "flags", 8, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint, flags), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__number_data_point__field_indices_by_name[] = { 2, /* field[2] = as_double */ 4, /* field[4] = as_int */ 5, /* field[5] = attributes */ 3, /* field[3] = exemplars */ 6, /* field[6] = flags */ 0, /* field[0] = start_time_unix_nano */ 1, /* field[1] = time_unix_nano */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__number_data_point__number_ranges[1 + 1] = { { 2, 0 }, { 0, 7 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__number_data_point__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.NumberDataPoint", "NumberDataPoint", "Opentelemetry__Proto__Metrics__V1__NumberDataPoint", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__NumberDataPoint), 7, opentelemetry__proto__metrics__v1__number_data_point__field_descriptors, opentelemetry__proto__metrics__v1__number_data_point__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__number_data_point__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__number_data_point__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__histogram_data_point__field_descriptors[11] = { { "start_time_unix_nano", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, start_time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "time_unix_nano", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "count", 4, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, count), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "sum", 5, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, sum), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "bucket_counts", 6, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FIXED64, offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, n_bucket_counts), offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, bucket_counts), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_PACKED, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "explicit_bounds", 7, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_DOUBLE, offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, n_explicit_bounds), offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, explicit_bounds), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_PACKED, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "exemplars", 8, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, n_exemplars), offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, exemplars), &opentelemetry__proto__metrics__v1__exemplar__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "attributes", 9, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, n_attributes), offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, attributes), &opentelemetry__proto__common__v1__key_value__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "flags", 10, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, flags), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "min", 11, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, min), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "max", 12, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint, max), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__histogram_data_point__field_indices_by_name[] = { 7, /* field[7] = attributes */ 4, /* field[4] = bucket_counts */ 2, /* field[2] = count */ 6, /* field[6] = exemplars */ 5, /* field[5] = explicit_bounds */ 8, /* field[8] = flags */ 10, /* field[10] = max */ 9, /* field[9] = min */ 0, /* field[0] = start_time_unix_nano */ 3, /* field[3] = sum */ 1, /* field[1] = time_unix_nano */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__histogram_data_point__number_ranges[1 + 1] = { { 2, 0 }, { 0, 11 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__histogram_data_point__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.HistogramDataPoint", "HistogramDataPoint", "Opentelemetry__Proto__Metrics__V1__HistogramDataPoint", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__HistogramDataPoint), 11, opentelemetry__proto__metrics__v1__histogram_data_point__field_descriptors, opentelemetry__proto__metrics__v1__histogram_data_point__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__histogram_data_point__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__histogram_data_point__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__field_descriptors[2] = { { "offset", 1, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_SINT32, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets, offset), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "bucket_counts", 2, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_UINT64, offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets, n_bucket_counts), offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets, bucket_counts), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_PACKED, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__field_indices_by_name[] = { 1, /* field[1] = bucket_counts */ 0, /* field[0] = offset */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__number_ranges[1 + 1] = { { 1, 0 }, { 0, 2 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.ExponentialHistogramDataPoint.Buckets", "Buckets", "Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint__Buckets), 2, opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__field_descriptors, opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__exponential_histogram_data_point__field_descriptors[13] = { { "attributes", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, n_attributes), offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, attributes), &opentelemetry__proto__common__v1__key_value__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "start_time_unix_nano", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, start_time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "time_unix_nano", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "count", 4, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, count), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "sum", 5, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, sum), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "scale", 6, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_SINT32, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, scale), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "zero_count", 7, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, zero_count), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "positive", 8, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, positive), &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "negative", 9, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, negative), &opentelemetry__proto__metrics__v1__exponential_histogram_data_point__buckets__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "flags", 10, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, flags), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "exemplars", 11, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, n_exemplars), offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, exemplars), &opentelemetry__proto__metrics__v1__exemplar__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "min", 12, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, min), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "max", 13, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint, max), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__exponential_histogram_data_point__field_indices_by_name[] = { 0, /* field[0] = attributes */ 3, /* field[3] = count */ 10, /* field[10] = exemplars */ 9, /* field[9] = flags */ 12, /* field[12] = max */ 11, /* field[11] = min */ 8, /* field[8] = negative */ 7, /* field[7] = positive */ 5, /* field[5] = scale */ 1, /* field[1] = start_time_unix_nano */ 4, /* field[4] = sum */ 2, /* field[2] = time_unix_nano */ 6, /* field[6] = zero_count */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__exponential_histogram_data_point__number_ranges[1 + 1] = { { 1, 0 }, { 0, 13 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__exponential_histogram_data_point__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.ExponentialHistogramDataPoint", "ExponentialHistogramDataPoint", "Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__ExponentialHistogramDataPoint), 13, opentelemetry__proto__metrics__v1__exponential_histogram_data_point__field_descriptors, opentelemetry__proto__metrics__v1__exponential_histogram_data_point__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__exponential_histogram_data_point__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__exponential_histogram_data_point__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__field_descriptors[2] = { { "quantile", 1, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint__ValueAtQuantile, quantile), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "value", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint__ValueAtQuantile, value), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__field_indices_by_name[] = { 0, /* field[0] = quantile */ 1, /* field[1] = value */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__number_ranges[1 + 1] = { { 1, 0 }, { 0, 2 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.SummaryDataPoint.ValueAtQuantile", "ValueAtQuantile", "Opentelemetry__Proto__Metrics__V1__SummaryDataPoint__ValueAtQuantile", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint__ValueAtQuantile), 2, opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__field_descriptors, opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__summary_data_point__field_descriptors[7] = { { "start_time_unix_nano", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, start_time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "time_unix_nano", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "count", 4, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, count), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "sum", 5, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, sum), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "quantile_values", 6, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, n_quantile_values), offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, quantile_values), &opentelemetry__proto__metrics__v1__summary_data_point__value_at_quantile__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "attributes", 7, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, n_attributes), offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, attributes), &opentelemetry__proto__common__v1__key_value__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "flags", 8, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint, flags), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__summary_data_point__field_indices_by_name[] = { 5, /* field[5] = attributes */ 2, /* field[2] = count */ 6, /* field[6] = flags */ 4, /* field[4] = quantile_values */ 0, /* field[0] = start_time_unix_nano */ 3, /* field[3] = sum */ 1, /* field[1] = time_unix_nano */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__summary_data_point__number_ranges[1 + 1] = { { 2, 0 }, { 0, 7 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__summary_data_point__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.SummaryDataPoint", "SummaryDataPoint", "Opentelemetry__Proto__Metrics__V1__SummaryDataPoint", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__SummaryDataPoint), 7, opentelemetry__proto__metrics__v1__summary_data_point__field_descriptors, opentelemetry__proto__metrics__v1__summary_data_point__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__summary_data_point__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__summary_data_point__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor opentelemetry__proto__metrics__v1__exemplar__field_descriptors[6] = { { "time_unix_nano", 2, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, time_unix_nano), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "as_double", 3, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_DOUBLE, offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, value_case), offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, as_double), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "span_id", 4, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_BYTES, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, span_id), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "trace_id", 5, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_BYTES, 0, /* quantifier_offset */ offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, trace_id), NULL, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "as_int", 6, PROTOBUF_C_LABEL_NONE, PROTOBUF_C_TYPE_SFIXED64, offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, value_case), offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, as_int), NULL, NULL, 0 | PROTOBUF_C_FIELD_FLAG_ONEOF, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "filtered_attributes", 7, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, n_filtered_attributes), offsetof(Opentelemetry__Proto__Metrics__V1__Exemplar, filtered_attributes), &opentelemetry__proto__common__v1__key_value__descriptor, NULL, 0, /* flags */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned opentelemetry__proto__metrics__v1__exemplar__field_indices_by_name[] = { 1, /* field[1] = as_double */ 4, /* field[4] = as_int */ 5, /* field[5] = filtered_attributes */ 2, /* field[2] = span_id */ 0, /* field[0] = time_unix_nano */ 3, /* field[3] = trace_id */ }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__exemplar__number_ranges[1 + 1] = { { 2, 0 }, { 0, 6 } }; const ProtobufCMessageDescriptor opentelemetry__proto__metrics__v1__exemplar__descriptor = { PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.Exemplar", "Exemplar", "Opentelemetry__Proto__Metrics__V1__Exemplar", "opentelemetry.proto.metrics.v1", sizeof(Opentelemetry__Proto__Metrics__V1__Exemplar), 6, opentelemetry__proto__metrics__v1__exemplar__field_descriptors, opentelemetry__proto__metrics__v1__exemplar__field_indices_by_name, 1, opentelemetry__proto__metrics__v1__exemplar__number_ranges, (ProtobufCMessageInit) opentelemetry__proto__metrics__v1__exemplar__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCEnumValue opentelemetry__proto__metrics__v1__aggregation_temporality__enum_values_by_number[3] = { { "AGGREGATION_TEMPORALITY_UNSPECIFIED", "OPENTELEMETRY__PROTO__METRICS__V1__AGGREGATION_TEMPORALITY__AGGREGATION_TEMPORALITY_UNSPECIFIED", 0 }, { "AGGREGATION_TEMPORALITY_DELTA", "OPENTELEMETRY__PROTO__METRICS__V1__AGGREGATION_TEMPORALITY__AGGREGATION_TEMPORALITY_DELTA", 1 }, { "AGGREGATION_TEMPORALITY_CUMULATIVE", "OPENTELEMETRY__PROTO__METRICS__V1__AGGREGATION_TEMPORALITY__AGGREGATION_TEMPORALITY_CUMULATIVE", 2 }, }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__aggregation_temporality__value_ranges[] = { {0, 0},{0, 3} }; static const ProtobufCEnumValueIndex opentelemetry__proto__metrics__v1__aggregation_temporality__enum_values_by_name[3] = { { "AGGREGATION_TEMPORALITY_CUMULATIVE", 2 }, { "AGGREGATION_TEMPORALITY_DELTA", 1 }, { "AGGREGATION_TEMPORALITY_UNSPECIFIED", 0 }, }; const ProtobufCEnumDescriptor opentelemetry__proto__metrics__v1__aggregation_temporality__descriptor = { PROTOBUF_C__ENUM_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.AggregationTemporality", "AggregationTemporality", "Opentelemetry__Proto__Metrics__V1__AggregationTemporality", "opentelemetry.proto.metrics.v1", 3, opentelemetry__proto__metrics__v1__aggregation_temporality__enum_values_by_number, 3, opentelemetry__proto__metrics__v1__aggregation_temporality__enum_values_by_name, 1, opentelemetry__proto__metrics__v1__aggregation_temporality__value_ranges, NULL,NULL,NULL,NULL /* reserved[1234] */ }; static const ProtobufCEnumValue opentelemetry__proto__metrics__v1__data_point_flags__enum_values_by_number[2] = { { "FLAG_NONE", "OPENTELEMETRY__PROTO__METRICS__V1__DATA_POINT_FLAGS__FLAG_NONE", 0 }, { "FLAG_NO_RECORDED_VALUE", "OPENTELEMETRY__PROTO__METRICS__V1__DATA_POINT_FLAGS__FLAG_NO_RECORDED_VALUE", 1 }, }; static const ProtobufCIntRange opentelemetry__proto__metrics__v1__data_point_flags__value_ranges[] = { {0, 0},{0, 2} }; static const ProtobufCEnumValueIndex opentelemetry__proto__metrics__v1__data_point_flags__enum_values_by_name[2] = { { "FLAG_NONE", 0 }, { "FLAG_NO_RECORDED_VALUE", 1 }, }; const ProtobufCEnumDescriptor opentelemetry__proto__metrics__v1__data_point_flags__descriptor = { PROTOBUF_C__ENUM_DESCRIPTOR_MAGIC, "opentelemetry.proto.metrics.v1.DataPointFlags", "DataPointFlags", "Opentelemetry__Proto__Metrics__V1__DataPointFlags", "opentelemetry.proto.metrics.v1", 2, opentelemetry__proto__metrics__v1__data_point_flags__enum_values_by_number, 2, opentelemetry__proto__metrics__v1__data_point_flags__enum_values_by_name, 1, opentelemetry__proto__metrics__v1__data_point_flags__value_ranges, NULL,NULL,NULL,NULL /* reserved[1234] */ };