InfluxDB.Client.Linq 4.19.0-dev.15177

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See the version list below for details.

dotnet add package InfluxDB.Client.Linq --version 4.19.0-dev.15177

NuGet\Install-Package InfluxDB.Client.Linq -Version 4.19.0-dev.15177

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<PackageReference Include="InfluxDB.Client.Linq" Version="4.19.0-dev.15177" />

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<PackageVersion Include="InfluxDB.Client.Linq" Version="4.19.0-dev.15177" />
                    

                            Directory.Packages.props

<PackageReference Include="InfluxDB.Client.Linq" />
                    

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paket add InfluxDB.Client.Linq --version 4.19.0-dev.15177

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#r "nuget: InfluxDB.Client.Linq, 4.19.0-dev.15177"

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#addin nuget:?package=InfluxDB.Client.Linq&version=4.19.0-dev.15177&prerelease
                    

                            Install InfluxDB.Client.Linq as a Cake Addin

#tool nuget:?package=InfluxDB.Client.Linq&version=4.19.0-dev.15177&prerelease
                    

                            Install InfluxDB.Client.Linq as a Cake Tool

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InfluxDB.Client.Linq

The library supports to use a LINQ expression to query the InfluxDB.

Documentation

This section contains links to the client library documentation.

Usage

How to start
Time Series
- Enable querying multiple time-series
- Client Side Evaluation
Perform Query
Filtering
- Mapping LINQ filters
- Time Range Filtering
Supported LINQ operators
- Equal
- Not Equal
- Less Than
- Less Than Or Equal
- Greater Than
- Greater Than Or Equal
- And
- Or
- Any
- Take
- TakeLast
- Skip
- OrderBy
- Count
- LongCount
- Contains
Custom LINQ operators
- AggregateWindow
Domain Converter
How to debug output Flux Query
How to filter by Measurement
Asynchronous Queries

How to start

First, add the library as a dependency for your project:

# For actual version please check: https://www.nuget.org/packages/InfluxDB.Client.Linq/

dotnet add package InfluxDB.Client.Linq --version 1.17.0-dev.linq.17

Next, you should add additional using statement to your program:

using InfluxDB.Client.Linq;

The LINQ query depends on QueryApiSync, you could create an instance of QueryApiSync by:

var client = new InfluxDBClient("http://localhost:8086", "my-token");
var queryApi = client.GetQueryApiSync();

In the following examples we assume that the Sensor entity is defined as:

class Sensor
{
    [Column("sensor_id", IsTag = true)] 
    public string SensorId { get; set; }

    /// <summary>
    /// "production" or "testing"
    /// </summary>
    [Column("deployment", IsTag = true)]
    public string Deployment { get; set; }

    /// <summary>
    /// Value measured by sensor
    /// </summary>
    [Column("data")]
    public float Value { get; set; }

    [Column(IsTimestamp = true)] 
    public DateTime Timestamp { get; set; }
}

Time Series

The InfluxDB uses concept of TimeSeries - a collection of data that shares a measurement, tag set, and bucket. You always operate on each time-series, if you querying data with Flux.

Imagine that you have following data:

sensor,deployment=production,sensor_id=id-1 data=15
sensor,deployment=testing,sensor_id=id-1 data=28
sensor,deployment=testing,sensor_id=id-1 data=12
sensor,deployment=production,sensor_id=id-1 data=89

The corresponding time series are:

sensor,deployment=production,sensor_id=id-1
sensor,deployment=testing,sensor_id=id-1

If you query your data with following Flux:

from(bucket: "my-bucket")
  |> range(start: 0)
  |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
  |> drop(columns: ["_start", "_stop", "_measurement"])
  |> limit(n:1)

The result will be one item for each time-series:

sensor,deployment=production,sensor_id=id-1 data=15
sensor,deployment=testing,sensor_id=id-1 data=28

and this is also way how this LINQ driver works.

The driver supposes that you are querying over one time-series.

There is a way how to change this configuration:

Enable querying multiple time-series

var settings = new QueryableOptimizerSettings{QueryMultipleTimeSeries = true};
var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", _queryApi, settings)
    select s;

The group() function is way how to query multiple time-series and gets correct results.

The following query works correctly:

from(bucket: "my-bucket")
  |> range(start: 0)
  |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
  |> drop(columns: ["_start", "_stop", "_measurement"])
  |> group()
  |> limit(n:1)

and corresponding result:

sensor,deployment=production,sensor_id=id-1 data=15

Do not used this functionality if it is not required because it brings a performance costs caused by sorting:

Group does not guarantee sort order

The group() does not guarantee sort order of output records. To ensure data is sorted correctly, use orderby expression.

Client Side Evaluation

The library attempts to evaluate a query on the server as much as possible. The client side evaluations is required for aggregation function if there is more then one time series.

If you want to count your data with following Flux:

from(bucket: "my-bucket")
  |> range(start: 0)
  |> drop(columns: ["_start", "_stop", "_measurement"])
  |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
  |> stateCount(fn: (r) => true, column: "linq_result_column") 
  |> last(column: "linq_result_column") 
  |> keep(columns: ["linq_result_column"])

The result will be one count for each time-series:

#group,false,false,false
#datatype,string,long,long
#default,_result,,
,result,table,linq_result_column
,,0,1
,,0,1

and client has to aggregate this multiple results into one scalar value.

Operators that could cause client side evaluation:

Count
CountLong

TL;DR

Perform Query

The LINQ query requires bucket and organization as a source of data. Both of them could be name or ID.

var query = (from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.SensorId == "id-1"
    where s.Value > 12
    where s.Timestamp > new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
    where s.Timestamp < new DateTime(2021, 01, 10, 5, 10, 0, DateTimeKind.Utc)
    orderby s.Timestamp
    select s)
    .Take(2)
    .Skip(2);

var sensors = query.ToList();

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 2019-11-16T08:20:15Z, stop: 2021-01-10T05:10:00Z) 
    |> filter(fn: (r) => (r["sensor_id"] == "id-1")) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] > 12)) 
    |> limit(n: 2, offset: 2)

Filtering

The range() and filter() are pushdown functions that allow push their data manipulation down to the underlying data source rather than storing and manipulating data in memory. Using pushdown functions at the beginning of query we greatly reduce the amount of server memory necessary to run a query.

The LINQ provider needs to aligns fields within each input table that have the same timestamp to column-wise format:

From

_time	_value	_measurement	_field
1970-01-01T00:00:00.000000001Z	1.0	"m1"	"f1"
1970-01-01T00:00:00.000000001Z	2.0	"m1"	"f2"
1970-01-01T00:00:00.000000002Z	3.0	"m1"	"f1"
1970-01-01T00:00:00.000000002Z	4.0	"m1"	"f2"

To

_time	_measurement	f1	f2
1970-01-01T00:00:00.000000001Z	"m1"	1.0	2.0
1970-01-01T00:00:00.000000002Z	"m1"	3.0	4.0

For that reason we need to use the pivot() function. The pivot is heavy and should be used at the end of our Flux query.

There is an also possibility to disable appending pivot by:

var optimizerSettings =
    new QueryableOptimizerSettings
    {
        AlignFieldsWithPivot = false
    };
    
var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi, optimizerSettings)
    select s;

Mapping LINQ filters

For the best performance on the both side - server, LINQ provider we maps the LINQ expressions to FLUX query following way:

Filter by Timestamp

Mapped to range().

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp >= new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
    select s;

var sensors = query.ToList();

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 2019-11-16T08:20:15ZZ) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

Filter by Tag

Mapped to filter() before pivot().

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.SensorId == "id-1"
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0)
    |> filter(fn: (r) => (r["sensor_id"] == "id-1"))  
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

Filter by Field

The filter by field has to be after the pivot() because we want to select all fields from pivoted table.

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value < 28
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0)
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")  
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] < 28))

If we move the filter() for fields before the pivot() then we will gets wrong results:

Data

m1 f1=1,f2=2 1
m1 f1=3,f2=4 2

Without filter

from(bucket: "my-bucket") 
    |> range(start: 0)
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])

Results:

_time	f1	f2
1970-01-01T00:00:00.000000001Z	1.0	2.0
1970-01-01T00:00:00.000000002Z	3.0	4.0

Filter before pivot()

filter: f1 > 0

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> filter(fn: (r) => (r["_field"] == "f1" and r["_value"] > 0))
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])

Results:

_time	f1
1970-01-01T00:00:00.000000001Z	1.0
1970-01-01T00:00:00.000000002Z	3.0

Time Range Filtering

The time filtering expressions are mapped to Flux range() function. This function has start and stop parameters with following behaviour: start <= _time < stop:

Results include records with _time values greater than or equal to the specified start time and less than the specified stop time.

This means that we have to add one nanosecond to start if we want timestamp greater than and also add one nanosecond to stop if we want to timestamp lesser or equal than.

range() function

Example 1:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp > new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
    where s.Timestamp < new DateTime(2021, 01, 10, 5, 10, 0, DateTimeKind.Utc)
    select s;

var sensors = query.ToList();

Flux Query:

start_shifted = int(v: time(v: "2019-11-16T08:20:15Z")) + 1

from(bucket: "my-bucket") 
    |> range(start: time(v: start_shifted), stop: 2021-01-10T05:10:00Z)
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])

Example 2:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp >= new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
    where s.Timestamp <= new DateTime(2021, 01, 10, 5, 10, 0, DateTimeKind.Utc)
    select s;

var sensors = query.ToList();

Flux Query:

stop_shifted = int(v: time(v: "2021-01-10T05:10:00Z")) + 1

from(bucket: "my-bucket") 
    |> range(start: 2019-11-16T08:20:15Z, stop: time(v: stop_shifted)) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

Example 3:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp >= new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
    select s;

var sensors = query.ToList();

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 2019-11-16T08:20:15ZZ) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

Example 4:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp <= new DateTime(2021, 01, 10, 5, 10, 0, DateTimeKind.Utc)
    select s;

var sensors = query.ToList();

Flux Query:

stop_shifted = int(v: time(v: "2021-01-10T05:10:00Z")) + 1

from(bucket: "my-bucket") 
    |> range(start: 0, stop: time(v: stop_shifted))
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])

Example 5:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp == new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
    select s;

var sensors = query.ToList();

Flux Query:

stop_shifted = int(v: time(v: "2019-11-16T08:20:15Z")) + 1

from(bucket: "my-bucket") 
    |> range(start: 2019-11-16T08:20:15Z, stop: time(v: stop_shifted)) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

There is also a possibility to specify the default value for start and stop parameter. This is useful when you need to include data with future timestamps when no time bounds are explicitly set.

var settings = new QueryableOptimizerSettings
{
    RangeStartValue = DateTime.UtcNow.AddHours(-24),
    RangeStopValue = DateTime.UtcNow.AddHours(1)
};
var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi, settings)
    select s;

TD;LR

Optimize Flux queries

Supported LINQ operators

Equal

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.SensorId == "id-1"
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0)
    |> filter(fn: (r) => (r["sensor_id"] == "id-1"))  
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

Not Equal

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.SensorId != "id-1"
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0)
    |> filter(fn: (r) => (r["sensor_id"] != "id-1")) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])

Less Than

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value < 28
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] < 28))

Less Than Or Equal

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value <= 28
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] <= 28))

Greater Than

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value > 28
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] > 28))

Greater Than Or Equal

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value >= 28
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] >= 28))

And

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value >= 28 && s.SensorId != "id-1"
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> filter(fn: (r) => (r["sensor_id"] != "id-1"))
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["data"] >= 28))

Or

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Value >= 28 || s.Value <= 5
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => ((r["data"] >= 28) or (r["data"] <=> 28)))

Any

The following code demonstrates how to use the Any operator to determine whether a collection contains any elements. By default the InfluxDB.Client doesn't supports to store a subcollection in your DomainObject.

Imagine that you have following entities:

class SensorCustom
{
    public Guid Id { get; set; }
    
    public float Data { get; set; }
    
    public DateTimeOffset Time { get; set; }
    
    public virtual ICollection<SensorAttribute> Attributes { get; set; }
}

class SensorAttribute
{
    public string Name { get; set; }
    public string Value { get; set; }
}

To be able to store SensorCustom entity in InfluxDB and retrieve it from database you should implement IDomainObjectMapper. The converter tells to the Client how to map DomainObject into PointData and how to map FluxRecord to DomainObject.

Entity Converter:

private class SensorEntityConverter : IDomainObjectMapper
{
    //
    // Parse incoming FluxRecord to DomainObject
    //
    public T ConvertToEntity<T>(FluxRecord fluxRecord)
    {
        if (typeof(T) != typeof(SensorCustom))
        {
            throw new NotSupportedException($"This converter doesn't supports: {typeof(SensorCustom)}");
        }

        //
        // Create SensorCustom entity and parse `SeriesId`, `Value` and `Time`
        //
        var customEntity = new SensorCustom
        {
            Id = Guid.Parse(Convert.ToString(fluxRecord.GetValueByKey("series_id"))!),
            Data = Convert.ToDouble(fluxRecord.GetValueByKey("data")),
            Time = fluxRecord.GetTime().GetValueOrDefault().ToDateTimeUtc(),
            Attributes = new List<SensorAttribute>()
        };
        
        foreach (var (key, value) in fluxRecord.Values)
        {
            //
            // Parse SubCollection values
            //
            if (key.StartsWith("property_"))
            {
                var attribute = new SensorAttribute
                {
                    Name = key.Replace("property_", string.Empty), Value = Convert.ToString(value)
                };
                
                customEntity.Attributes.Add(attribute);
            }
        }

        return (T) Convert.ChangeType(customEntity, typeof(T));
    }

    //
    // Convert DomainObject into PointData
    //
    public PointData ConvertToPointData<T>(T entity, WritePrecision precision)
    {
        if (!(entity is SensorCustom ce))
        {
            throw new NotSupportedException($"This converter doesn't supports: {typeof(SensorCustom)}");
        }

        //
        // Map `SeriesId`, `Value` and `Time` to Tag, Field and Timestamp
        //
        var point = PointData
            .Measurement("custom_measurement")
            .Tag("series_id", ce.Id.ToString())
            .Field("data", ce.Data)
            .Timestamp(ce.Time, precision);

        //
        // Map subattributes to Fields
        //
        foreach (var attribute in ce.Attributes ?? new List<SensorAttribute>())
        {
            point = point.Field($"property_{attribute.Name}", attribute.Value);
        }

        return point;
    }
}

The Converter could be passed to QueryApiSync, QueryApi or WriteApi by:

// Create Converter
var converter = new SensorEntityConverter();

// Get Query and Write API
var queryApi = client.GetQueryApiSync(converter);
var writeApi = client.GetWriteApi(converter);

The LINQ provider needs to know how properties of DomainObject are stored in InfluxDB - their name and type (tag, field, timestamp).

If you use a IDomainObjectMapper instead of InfluxDB Attributes you should implement IMemberNameResolver:

private class SensorMemberResolver: IMemberNameResolver
{
    //
    // Tell to LINQ providers how is property of DomainObject mapped - Tag, Field, Timestamp, ... ?
    //
    public MemberType ResolveMemberType(MemberInfo memberInfo)
    {
        //
        // Mapping of subcollection
        //
        if (memberInfo.DeclaringType == typeof(SensorAttribute))
        {
            return memberInfo.Name switch
            {
                "Name" => MemberType.NamedField,
                "Value" => MemberType.NamedFieldValue,
                _ => MemberType.Field
            };
        }

        //
        // Mapping of "root" domain
        //
        return memberInfo.Name switch
        {
            "Time" => MemberType.Timestamp,
            "Id" => MemberType.Tag,
            _ => MemberType.Field
        };
    }

    //
    // Tell to LINQ provider how is property of DomainObject named 
    //
    public string GetColumnName(MemberInfo memberInfo)
    {
        return memberInfo.Name switch
        {
            "Id" => "series_id",
            "Data" => "data",
            _ => memberInfo.Name
        };
    }

    //
    // Tell to LINQ provider how is named property that is flattened
    //
    public string GetNamedFieldName(MemberInfo memberInfo, object value)
    {
        return "attribute_" + Convert.ToString(value);
    }
}

Now We are able to provide a required information to the LINQ provider by memberResolver parameter:

var memberResolver = new SensorMemberResolver();

var query = from s in InfluxDBQueryable<SensorCustom>.Queryable("my-bucket", "my-org", queryApi, memberResolver)
    where s.Attributes.Any(a => a.Name == "quality" && a.Value == "good")
    select s;

Flux Query:

from(bucket: "my-bucket")
    |> range(start: 0)
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => (r["attribute_quality"] == "good"))

For more info see CustomDomainMappingAndLinq example.

Take

var query = (from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    select s)
    .Take(10);

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> limit(n: 10)

Note: the limit() function can be align before pivot() function by:

var optimizerSettings =
    new QueryableOptimizerSettings
    {
        AlignLimitFunctionAfterPivot = false
    };

Performance: The pivot() is a “heavy” function. Using limit() before pivot() is much faster but works only if you have consistent data series. See #318 for more details.

TakeLast

var query = (from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    select s)
    .TakeLast(10);

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> tail(n: 10)

Note: the tail() function can be align before pivot() function by:

var optimizerSettings =
    new QueryableOptimizerSettings
    {
        AlignLimitFunctionAfterPivot = false
    };

Performance: The pivot() is a “heavy” function. Using tail() before pivot() is much faster but works only if you have consistent data series. See #318 for more details.

Skip

var query = (from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    select s)
    .Take(10)
    .Skip(50);

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> limit(n: 10, offset: 50)

OrderBy

Example 1:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    orderby s.Deployment
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> sort(columns: ["deployment"], desc: false)

Example 2:

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    orderby s.Timestamp descending 
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> sort(columns: ["_time"], desc: true)

Count

Possibility of partial client side evaluation

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    select s;

var sensors = query.Count();

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> stateCount(fn: (r) => true, column: "linq_result_column") 
    |> last(column: "linq_result_column") 
    |> keep(columns: ["linq_result_column"])

LongCount

Possibility of partial client side evaluation

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    select s;

var sensors = query.LongCount();

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0)
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> stateCount(fn: (r) => true, column: "linq_result_column") 
    |> last(column: "linq_result_column") 
    |> keep(columns: ["linq_result_column"])

Contains

int[] values = {15, 28};

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where values.Contains(s.Value)
    select s;

var sensors = query.Count();

Flux Query:

from(bucket: "my-bucket")
    |> range(start: 0)
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value")
    |> drop(columns: ["_start", "_stop", "_measurement"])
    |> filter(fn: (r) => contains(value: r["data"], set: [15, 28]))

Custom LINQ operators

AggregateWindow

The AggregateWindow applies an aggregate function to fixed windows of time. Can be used only for a field which is defined as timestamp - [Column(IsTimestamp = true)]. For more info about aggregateWindow() function see Flux's documentation - https://docs.influxdata.com/flux/v0.x/stdlib/universe/aggregatewindow/.

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    where s.Timestamp.AggregateWindow(TimeSpan.FromSeconds(20), TimeSpan.FromSeconds(40), "mean")
    select s;

Flux Query:

from(bucket: "my-bucket") 
    |> range(start: 0) 
    |> aggregateWindow(every: 20s, period: 40s, fn: mean) 
    |> pivot(rowKey:["_time"], columnKey: ["_field"], valueColumn: "_value") 
    |> drop(columns: ["_start", "_stop", "_measurement"])

Domain Converter

There is also possibility to use custom domain converter to transform data from/to your DomainObject.

Instead of following Influx attributes:

[Measurement("temperature")]
private class Temperature
{
    [Column("location", IsTag = true)] public string Location { get; set; }

    [Column("value")] public double Value { get; set; }

    [Column(IsTimestamp = true)] public DateTime Time { get; set; }
}

you could create own instance of IDomainObjectMapper and use it with QueryApiSync, QueryApi and WriteApi.

var converter = new DomainEntityConverter();
var queryApi = client.GetQueryApiSync(converter)

To satisfy LINQ Query Provider you have to implement IMemberNameResolver:

var resolver = new MemberNameResolver();

var query = from s in InfluxDBQueryable<SensorCustom>.Queryable("my-bucket", "my-org", queryApi, nameResolver)
    where s.Attributes.Any(a => a.Name == "quality" && a.Value == "good")
    select s;

for more details see Any operator and for full example see: CustomDomainMappingAndLinq.

How to debug output Flux Query

var query = (from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", _queryApi)
        where s.SensorId == "id-1"
        where s.Value > 12
        where s.Timestamp > new DateTime(2019, 11, 16, 8, 20, 15, DateTimeKind.Utc)
        where s.Timestamp < new DateTime(2021, 01, 10, 5, 10, 0, DateTimeKind.Utc)
        orderby s.Timestamp
        select s)
    .Take(2)
    .Skip(2);
    
Console.WriteLine("==== Debug LINQ Queryable Flux output ====");
var influxQuery = ((InfluxDBQueryable<Sensor>) query).ToDebugQuery();
foreach (var statement in influxQuery.Extern.Body)
{
    var os = statement as OptionStatement;
    var va = os?.Assignment as VariableAssignment;
    var name = va?.Id.Name;
    var value = va?.Init.GetType().GetProperty("Value")?.GetValue(va.Init, null);

    Console.WriteLine($"{name}={value}");
}
Console.WriteLine();
Console.WriteLine(influxQuery._Query);

How to filter by Measurement

By default, as an optimization step, Flux queries generated by LINQ will automatically drop the Start, Stop and Measurement columns:

from(bucket: "my-bucket")
  |> range(start: 0)
  |> drop(columns: ["_start", "_stop", "_measurement"])
  ...

This is because typical POCO classes do not include them:

[Measurement("temperature")]
private class Temperature
{
    [Column("location", IsTag = true)] public string Location { get; set; }
    [Column("value")] public double Value { get; set; }
    [Column(IsTimestamp = true)] public DateTime Time { get; set; }
}

It is, however, possible to utilize the Measurement column in LINQ queries by enabling it in the query optimization settings:

var optimizerSettings =
    new QueryableOptimizerSettings
    {
        DropMeasurementColumn = false,
        
        // Note we can also enable the start and stop columns
        //DropStartColumn = false,
        //DropStopColumn = false
    };

var queryable =
    new InfluxDBQueryable<InfluxPoint>("my-bucket", "my-org", queryApi, new DefaultMemberNameResolver(), optimizerSettings);

var latest =
    await queryable.Where(p => p.Measurement == "temperature")
                   .OrderByDescending(p => p.Time)
                   .ToInfluxQueryable()
                   .GetAsyncEnumerator()
                   .FirstOrDefaultAsync();

private class InfluxPoint
{
    [Column(IsMeasurement = true)] public string Measurement { get; set; }
    [Column("location", IsTag = true)] public string Location { get; set; }
    [Column("value")] public double Value { get; set; }
    [Column(IsTimestamp = true)] public DateTime Time { get; set; }
}

Asynchronous Queries

The LINQ driver also supports asynchronous querying. For asynchronous queries you have to initialize InfluxDBQueryable with asynchronous version of QueryApi and transform IQueryable<T> to IAsyncEnumerable<T>:

var client = new InfluxDBClient("http://localhost:8086", "my-token");
var queryApi = client.GetQueryApi();

var query = from s in InfluxDBQueryable<Sensor>.Queryable("my-bucket", "my-org", queryApi)
    select s;

IAsyncEnumerable<Sensor> enumerable = query
    .ToInfluxQueryable()
    .GetAsyncEnumerator();

Product	Compatible and additional computed target framework versions.
.NET	net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. net9.0 was computed. net9.0-android was computed. net9.0-browser was computed. net9.0-ios was computed. net9.0-maccatalyst was computed. net9.0-macos was computed. net9.0-tvos was computed. net9.0-windows was computed.
.NET Core	netcoreapp2.0 was computed. netcoreapp2.1 was computed. netcoreapp2.2 was computed. netcoreapp3.0 was computed. netcoreapp3.1 was computed.
.NET Standard	netstandard2.0 is compatible. netstandard2.1 is compatible.
.NET Framework	net461 was computed. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed.
MonoAndroid	monoandroid was computed.
MonoMac	monomac was computed.
MonoTouch	monotouch was computed.
Tizen	tizen40 was computed. tizen60 was computed.
Xamarin.iOS	xamarinios was computed.
Xamarin.Mac	xamarinmac was computed.
Xamarin.TVOS	xamarintvos was computed.
Xamarin.WatchOS	xamarinwatchos was computed.

Compatible target framework(s)

Included target framework(s) (in package)

Learn more about Target Frameworks and .NET Standard.

.NETStandard 2.0
- InfluxDB.Client (>= 4.19.0-dev.15177)
- Remotion.Linq (>= 2.2.0)
.NETStandard 2.1
- InfluxDB.Client (>= 4.19.0-dev.15177)
- Remotion.Linq (>= 2.2.0)

NuGet packages (3)

Showing the top 3 NuGet packages that depend on InfluxDB.Client.Linq:

Package	Downloads
DeerNet.InfluxDb2 Package Description	275
MicroHeart.InfluxDB Package Description	235
ToolNET.InfluxDB.SDK 时序数据库InfluxDB操作SDK	201

GitHub repositories

This package is not used by any popular GitHub repositories.

Version	Downloads	Last updated
4.19.0-dev.15190	179	12/5/2024
4.19.0-dev.15189	55	12/5/2024
4.19.0-dev.15188	52	12/5/2024
4.19.0-dev.15178	58	12/5/2024
4.19.0-dev.15177	57	12/5/2024
4.19.0-dev.14906	126	10/2/2024
4.19.0-dev.14897	61	10/2/2024
4.19.0-dev.14896	56	10/2/2024
4.19.0-dev.14895	58	10/2/2024
4.19.0-dev.14811	87	9/13/2024
4.18.0	75,806	9/13/2024
4.18.0-dev.14769	73	9/4/2024
4.18.0-dev.14743	65	9/3/2024
4.18.0-dev.14694	63	9/3/2024
4.18.0-dev.14693	59	9/3/2024
4.18.0-dev.14692	57	9/3/2024
4.18.0-dev.14618	57	9/2/2024
4.18.0-dev.14609	56	9/2/2024
4.18.0-dev.14592	59	9/2/2024
4.18.0-dev.14446	82	8/19/2024
4.18.0-dev.14414	75	8/12/2024
4.17.0	11,530	8/12/2024
4.17.0-dev.headers.read.1	90	7/22/2024
4.17.0-dev.14350	54	8/5/2024
4.17.0-dev.14333	51	8/5/2024
4.17.0-dev.14300	47	8/5/2024
4.17.0-dev.14291	50	8/5/2024
4.17.0-dev.14189	64	7/23/2024
4.17.0-dev.14179	62	7/22/2024
4.17.0-dev.14101	148	7/1/2024
4.17.0-dev.14100	69	7/1/2024
4.17.0-dev.14044	74	6/24/2024
4.16.0	11,186	6/24/2024
4.16.0-dev.13990	71	6/3/2024
4.16.0-dev.13973	64	6/3/2024
4.16.0-dev.13972	63	6/3/2024
4.16.0-dev.13963	71	6/3/2024
4.16.0-dev.13962	67	6/3/2024
4.16.0-dev.13881	67	6/3/2024
4.16.0-dev.13775	80	5/17/2024
4.16.0-dev.13702	71	5/17/2024
4.15.0	3,019	5/17/2024
4.15.0-dev.13674	81	5/14/2024
4.15.0-dev.13567	86	4/2/2024
4.15.0-dev.13558	71	4/2/2024
4.15.0-dev.13525	77	4/2/2024
4.15.0-dev.13524	67	4/2/2024
4.15.0-dev.13433	79	3/7/2024
4.15.0-dev.13432	77	3/7/2024
4.15.0-dev.13407	74	3/7/2024
4.15.0-dev.13390	72	3/7/2024
4.15.0-dev.13388	69	3/7/2024
4.15.0-dev.13282	77	3/6/2024
4.15.0-dev.13257	77	3/6/2024
4.15.0-dev.13113	238	2/1/2024
4.15.0-dev.13104	74	2/1/2024
4.15.0-dev.13081	74	2/1/2024
4.15.0-dev.13040	72	2/1/2024
4.15.0-dev.13039	76	2/1/2024
4.15.0-dev.12863	123	1/8/2024
4.15.0-dev.12846	90	1/8/2024
4.15.0-dev.12837	82	1/8/2024
4.15.0-dev.12726	165	12/1/2023
4.15.0-dev.12725	84	12/1/2023
4.15.0-dev.12724	81	12/1/2023
4.15.0-dev.12691	85	12/1/2023
4.15.0-dev.12658	80	12/1/2023
4.15.0-dev.12649	83	12/1/2023
4.15.0-dev.12624	80	12/1/2023
4.15.0-dev.12471	108	11/7/2023
4.15.0-dev.12462	82	11/7/2023
4.14.0	63,591	11/7/2023
4.14.0-dev.12437	83	11/7/2023
4.14.0-dev.12343	95	11/2/2023
4.14.0-dev.12310	83	11/2/2023
4.14.0-dev.12284	85	11/1/2023
4.14.0-dev.12235	84	11/1/2023
4.14.0-dev.12226	83	11/1/2023
4.14.0-dev.11972	221	8/8/2023
4.14.0-dev.11915	119	7/31/2023
4.14.0-dev.11879	129	7/28/2023
4.13.0	22,770	7/28/2023
4.13.0-dev.11854	102	7/28/2023
4.13.0-dev.11814	112	7/21/2023
4.13.0-dev.11771	102	7/19/2023
4.13.0-dev.11770	111	7/19/2023
4.13.0-dev.11728	101	7/18/2023
4.13.0-dev.11686	100	7/17/2023
4.13.0-dev.11685	98	7/17/2023
4.13.0-dev.11676	114	7/17/2023
4.13.0-dev.11479	101	6/27/2023
4.13.0-dev.11478	101	6/27/2023
4.13.0-dev.11477	108	6/27/2023
4.13.0-dev.11396	107	6/19/2023
4.13.0-dev.11395	93	6/19/2023
4.13.0-dev.11342	106	6/15/2023
4.13.0-dev.11330	118	6/12/2023
4.13.0-dev.11305	108	6/12/2023
4.13.0-dev.11296	109	6/12/2023
4.13.0-dev.11217	112	6/6/2023
4.13.0-dev.11089	105	5/30/2023
4.13.0-dev.11064	114	5/30/2023
4.13.0-dev.10998	107	5/29/2023
4.13.0-dev.10989	111	5/29/2023
4.13.0-dev.10871	113	5/8/2023
4.13.0-dev.10870	99	5/8/2023
4.13.0-dev.10819	125	4/28/2023
4.12.0	13,861	4/28/2023
4.12.0-dev.10777	114	4/27/2023
4.12.0-dev.10768	119	4/27/2023
4.12.0-dev.10759	116	4/27/2023
4.12.0-dev.10742	113	4/27/2023
4.12.0-dev.10685	104	4/27/2023
4.12.0-dev.10684	107	4/27/2023
4.12.0-dev.10643	109	4/27/2023
4.12.0-dev.10642	112	4/27/2023
4.12.0-dev.10569	109	4/27/2023
4.12.0-dev.10193	151	2/23/2023
4.11.0	23,770	2/23/2023
4.11.0-dev.10176	120	2/23/2023
4.11.0-dev.10059	227	1/26/2023
4.10.0	7,562	1/26/2023
4.10.0-dev.10033	142	1/25/2023
4.10.0-dev.10032	142	1/25/2023
4.10.0-dev.10031	139	1/25/2023
4.10.0-dev.9936	2,220	12/26/2022
4.10.0-dev.9935	138	12/26/2022
4.10.0-dev.9881	131	12/21/2022
4.10.0-dev.9880	129	12/21/2022
4.10.0-dev.9818	138	12/16/2022
4.10.0-dev.9773	128	12/12/2022
4.10.0-dev.9756	135	12/12/2022
4.10.0-dev.9693	130	12/6/2022
4.9.0	9,993	12/6/2022
4.9.0-dev.9684	132	12/6/2022
4.9.0-dev.9666	137	12/6/2022
4.9.0-dev.9617	132	12/6/2022
4.9.0-dev.9478	125	12/5/2022
4.9.0-dev.9469	141	12/5/2022
4.9.0-dev.9444	124	12/5/2022
4.9.0-dev.9411	119	12/5/2022
4.9.0-dev.9350	128	12/1/2022
4.8.0	1,616	12/1/2022
4.8.0-dev.9324	131	11/30/2022
4.8.0-dev.9232	133	11/28/2022
4.8.0-dev.9223	131	11/28/2022
4.8.0-dev.9222	138	11/28/2022
4.8.0-dev.9117	144	11/21/2022
4.8.0-dev.9108	129	11/21/2022
4.8.0-dev.9099	139	11/21/2022
4.8.0-dev.9029	131	11/16/2022
4.8.0-dev.8971	134	11/15/2022
4.8.0-dev.8961	138	11/14/2022
4.8.0-dev.8928	140	11/14/2022
4.8.0-dev.8899	142	11/14/2022
4.8.0-dev.8898	136	11/14/2022
4.8.0-dev.8839	149	11/14/2022
4.8.0-dev.8740	127	11/7/2022
4.8.0-dev.8725	132	11/7/2022
4.8.0-dev.8648	129	11/3/2022
4.7.0	25,244	11/3/2022
4.7.0-dev.8625	138	11/2/2022
4.7.0-dev.8594	139	10/31/2022
4.7.0-dev.8579	140	10/31/2022
4.7.0-dev.8557	131	10/31/2022
4.7.0-dev.8540	123	10/31/2022
4.7.0-dev.8518	127	10/31/2022
4.7.0-dev.8517	136	10/31/2022
4.7.0-dev.8509	135	10/31/2022
4.7.0-dev.8377	139	10/26/2022
4.7.0-dev.8360	147	10/25/2022
4.7.0-dev.8350	144	10/24/2022
4.7.0-dev.8335	141	10/24/2022
4.7.0-dev.8334	143	10/24/2022
4.7.0-dev.8223	183	10/19/2022
4.7.0-dev.8178	137	10/17/2022
4.7.0-dev.8170	135	10/17/2022
4.7.0-dev.8148	144	10/17/2022
4.7.0-dev.8133	141	10/17/2022
4.7.0-dev.8097	128	10/17/2022
4.7.0-dev.8034	149	10/11/2022
4.7.0-dev.8025	135	10/11/2022
4.7.0-dev.8009	152	10/10/2022
4.7.0-dev.8001	156	10/10/2022
4.7.0-dev.7959	134	10/4/2022
4.7.0-dev.7905	141	9/30/2022
4.7.0-dev.7875	136	9/29/2022
4.6.0	2,723	9/29/2022
4.6.0-dev.7832	146	9/29/2022
4.6.0-dev.7817	144	9/29/2022
4.6.0-dev.7779	160	9/27/2022
4.6.0-dev.7778	156	9/27/2022
4.6.0-dev.7734	146	9/26/2022
4.6.0-dev.7733	146	9/26/2022
4.6.0-dev.7677	153	9/20/2022
4.6.0-dev.7650	153	9/16/2022
4.6.0-dev.7626	207	9/14/2022
4.6.0-dev.7618	198	9/14/2022
4.6.0-dev.7574	140	9/13/2022
4.6.0-dev.7572	139	9/13/2022
4.6.0-dev.7528	132	9/12/2022
4.6.0-dev.7502	146	9/9/2022
4.6.0-dev.7479	161	9/8/2022
4.6.0-dev.7471	150	9/8/2022
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4.6.0-dev.7329	133	8/31/2022
4.6.0-dev.7292	131	8/30/2022
4.6.0-dev.7240	142	8/29/2022
4.5.0	2,737	8/29/2022
4.5.0-dev.7216	137	8/27/2022
4.5.0-dev.7147	142	8/22/2022
4.5.0-dev.7134	143	8/17/2022
4.5.0-dev.7096	147	8/15/2022
4.5.0-dev.7070	153	8/11/2022
4.5.0-dev.7040	174	8/10/2022
4.5.0-dev.7011	152	8/3/2022
4.5.0-dev.6987	154	8/1/2022
4.5.0-dev.6962	158	7/29/2022
4.4.0	14,759	7/29/2022
4.4.0-dev.6901	155	7/25/2022
4.4.0-dev.6843	149	7/19/2022
4.4.0-dev.6804	156	7/19/2022
4.4.0-dev.6789	152	7/19/2022
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4.4.0-dev.6705	162	7/14/2022
4.4.0-dev.6663	188	6/24/2022
4.4.0-dev.6655	146	6/24/2022
4.3.0	15,811	6/24/2022
4.3.0-dev.multiple.buckets3	175	6/21/2022
4.3.0-dev.multiple.buckets2	141	6/17/2022
4.3.0-dev.multiple.buckets1	147	6/17/2022
4.3.0-dev.6631	143	6/22/2022
4.3.0-dev.6623	151	6/22/2022
4.3.0-dev.6374	155	6/13/2022
4.3.0-dev.6286	160	5/20/2022
4.2.0	2,457	5/20/2022
4.2.0-dev.6257	157	5/13/2022
4.2.0-dev.6248	156	5/12/2022
4.2.0-dev.6233	161	5/12/2022
4.2.0-dev.6194	158	5/10/2022
4.2.0-dev.6193	152	5/10/2022
4.2.0-dev.6158	2,867	5/6/2022
4.2.0-dev.6135	163	5/6/2022
4.2.0-dev.6091	165	4/28/2022
4.2.0-dev.6048	164	4/28/2022
4.2.0-dev.6047	165	4/28/2022
4.2.0-dev.5966	167	4/25/2022
4.2.0-dev.5938	168	4/19/2022
4.1.0	3,423	4/19/2022
4.1.0-dev.5910	359	4/13/2022
4.1.0-dev.5888	167	4/13/2022
4.1.0-dev.5887	171	4/13/2022
4.1.0-dev.5794	171	4/6/2022
4.1.0-dev.5725	176	3/18/2022
4.0.0	9,005	3/18/2022
4.0.0-rc3	418	3/4/2022
4.0.0-rc2	569	2/25/2022
4.0.0-rc1	229	2/18/2022
4.0.0-dev.5709	166	3/18/2022
4.0.0-dev.5684	177	3/15/2022
4.0.0-dev.5630	178	3/4/2022
4.0.0-dev.5607	170	3/3/2022
4.0.0-dev.5579	173	2/25/2022
4.0.0-dev.5556	178	2/24/2022
4.0.0-dev.5555	165	2/24/2022
4.0.0-dev.5497	164	2/23/2022
4.0.0-dev.5489	175	2/23/2022
4.0.0-dev.5460	171	2/23/2022
4.0.0-dev.5444	165	2/22/2022
4.0.0-dev.5333	170	2/17/2022
4.0.0-dev.5303	164	2/16/2022
4.0.0-dev.5280	177	2/16/2022
4.0.0-dev.5279	177	2/16/2022
4.0.0-dev.5241	273	2/15/2022
4.0.0-dev.5225	167	2/15/2022
4.0.0-dev.5217	172	2/15/2022
4.0.0-dev.5209	164	2/15/2022
4.0.0-dev.5200	167	2/14/2022
4.0.0-dev.5188	168	2/10/2022
4.0.0-dev.5180	168	2/10/2022
4.0.0-dev.5172	171	2/10/2022
4.0.0-dev.5130	163	2/10/2022
4.0.0-dev.5122	171	2/9/2022
4.0.0-dev.5103	178	2/9/2022
4.0.0-dev.5097	177	2/9/2022
4.0.0-dev.5091	170	2/9/2022
4.0.0-dev.5084	172	2/8/2022
3.4.0-dev.5263	181	2/15/2022
3.4.0-dev.4986	171	2/7/2022
3.4.0-dev.4968	186	2/4/2022
3.3.0	8,712	2/4/2022
3.3.0-dev.4889	175	2/3/2022
3.3.0-dev.4865	181	2/1/2022
3.3.0-dev.4823	186	1/19/2022
3.3.0-dev.4691	185	1/7/2022
3.3.0-dev.4557	1,392	11/26/2021
3.2.0	5,928	11/26/2021
3.2.0-dev.4533	4,890	11/24/2021
3.2.0-dev.4484	251	11/11/2021
3.2.0-dev.4475	224	11/10/2021
3.2.0-dev.4387	200	10/26/2021
3.2.0-dev.4363	215	10/22/2021
3.2.0-dev.4356	213	10/22/2021
3.1.0	1,820	10/22/2021
3.1.0-dev.4303	215	10/18/2021
3.1.0-dev.4293	217	10/15/2021
3.1.0-dev.4286	195	10/15/2021
3.1.0-dev.4240	233	10/12/2021
3.1.0-dev.4202	191	10/11/2021
3.1.0-dev.4183	236	10/11/2021
3.1.0-dev.4131	203	10/8/2021
3.1.0-dev.3999	211	10/5/2021
3.1.0-dev.3841	289	9/29/2021
3.1.0-dev.3798	210	9/17/2021
3.0.0	1,232	9/17/2021
3.0.0-dev.3726	550	8/31/2021
3.0.0-dev.3719	197	8/31/2021
3.0.0-dev.3671	209	8/20/2021
2.2.0-dev.3652	204	8/20/2021
2.1.0	1,585	8/20/2021
2.1.0-dev.3605	209	8/17/2021
2.1.0-dev.3584	209	8/16/2021
2.1.0-dev.3558	199	8/16/2021
2.1.0-dev.3527	247	7/29/2021
2.1.0-dev.3519	246	7/29/2021
2.1.0-dev.3490	197	7/20/2021
2.1.0-dev.3445	219	7/12/2021
2.1.0-dev.3434	255	7/9/2021
2.0.0	9,042	7/9/2021
2.0.0-dev.3401	236	6/25/2021
2.0.0-dev.3368	221	6/23/2021
2.0.0-dev.3361	231	6/23/2021
2.0.0-dev.3330	228	6/17/2021
2.0.0-dev.3291	231	6/16/2021
1.20.0-dev.3218	248	6/4/2021
1.19.0	962	6/4/2021
1.19.0-dev.3204	218	6/3/2021
1.19.0-dev.3160	202	6/2/2021
1.19.0-dev.3159	199	6/2/2021
1.19.0-dev.3084	862	5/7/2021
1.19.0-dev.3051	227	5/5/2021
1.19.0-dev.3044	222	5/5/2021
1.19.0-dev.3008	217	4/30/2021
1.18.0	1,264	4/30/2021
1.18.0-dev.2973	236	4/27/2021
1.18.0-dev.2930	215	4/16/2021
1.18.0-dev.2919	213	4/13/2021
1.18.0-dev.2893	199	4/12/2021
1.18.0-dev.2880	218	4/12/2021
1.18.0-dev.2856	212	4/7/2021
1.18.0-dev.2830	309	4/1/2021
1.18.0-dev.2816	215	4/1/2021
1.17.0	810	4/1/2021
1.17.0-dev.linq.17	828	3/18/2021
1.17.0-dev.linq.16	208	3/16/2021
1.17.0-dev.linq.15	241	3/15/2021
1.17.0-dev.linq.14	245	3/12/2021
1.17.0-dev.linq.13	275	3/11/2021
1.17.0-dev.linq.12	226	3/10/2021
1.17.0-dev.linq.11	222	3/8/2021
1.17.0-dev.2776	244	3/26/2021
1.17.0-dev.2713	257	3/25/2021
1.16.0-dev.linq.10	1,265	2/4/2021
1.15.0-dev.linq.9	243	2/4/2021
1.15.0-dev.linq.8	217	1/28/2021
1.15.0-dev.linq.7	234	1/27/2021
1.15.0-dev.linq.6	251	1/20/2021
1.15.0-dev.linq.5	271	1/19/2021
1.15.0-dev.linq.4	234	1/15/2021
1.15.0-dev.linq.3	209	1/14/2021
1.15.0-dev.linq.2	225	1/13/2021
1.15.0-dev.linq.1	248	1/12/2021

https://github.com/influxdata/influxdb-client-csharp/blob/master/CHANGELOG.md

InfluxDB.Client.Linq 4.19.0-dev.15177

InfluxDB.Client.Linq

Documentation

Usage

How to start

Time Series

Enable querying multiple time-series

Group does not guarantee sort order

Client Side Evaluation

TL;DR

Perform Query

Filtering

From

To

Mapping LINQ filters

Filter by Timestamp

Filter by Tag

Filter by Field

Data

Without filter

Filter before pivot()

Time Range Filtering

Example 1:

Example 2:

Example 3:

Example 4:

Example 5:

TD;LR

Supported LINQ operators

Equal

Not Equal

Less Than

Less Than Or Equal

Greater Than

Greater Than Or Equal

And

Or

Any

Take

TakeLast

Skip

OrderBy

Example 1:

Example 2:

Count

LongCount

Contains

Custom LINQ operators

AggregateWindow

Domain Converter

How to debug output Flux Query

How to filter by Measurement

Asynchronous Queries

.NETStandard 2.0

.NETStandard 2.1

NuGet packages (3)

GitHub repositories