Innovian.Contrib.Dapr.StateQueryBuilder
2023.10.3.5
dotnet add package Innovian.Contrib.Dapr.StateQueryBuilder --version 2023.10.3.5
NuGet\Install-Package Innovian.Contrib.Dapr.StateQueryBuilder -Version 2023.10.3.5
<PackageReference Include="Innovian.Contrib.Dapr.StateQueryBuilder" Version="2023.10.3.5" />
paket add Innovian.Contrib.Dapr.StateQueryBuilder --version 2023.10.3.5
#r "nuget: Innovian.Contrib.Dapr.StateQueryBuilder, 2023.10.3.5"
// Install Innovian.Contrib.Dapr.StateQueryBuilder as a Cake Addin #addin nuget:?package=Innovian.Contrib.Dapr.StateQueryBuilder&version=2023.10.3.5 // Install Innovian.Contrib.Dapr.StateQueryBuilder as a Cake Tool #tool nuget:?package=Innovian.Contrib.Dapr.StateQueryBuilder&version=2023.10.3.5
Innovian.Contrib.Dapr.StateQueryBuilder
This is a contribution to the .NET community of Dapr, providing a fluent API for building out the appropriate JSON for querying state stores as described here. As some of these nested filters could get a little unwieldy to write by hand, I wanted to take a stab at creating a fluent API capable of doing so for me and my experiment was successful. Thus, I'm sharing the fruits of my efforts with the larger community.
While a contributor to the project with packages such as this, Innovian is not otherwise associated with Dapr or the larger Linux Foundation.
Installation
Using the .NET Core CLI tools:
dotnet add package Innovian.Contrib.Dapr.StateQueryBuilder
Using the NuGet CLI:
nuget install Innovian.Contrib.Dapr.StateQueryBuilder
Using the Package Manager Console:
Install-Package Innovian.Contrib.Dapr.StateQueryBuilder
From within Visual Studio:
- Open the Solution Explorer.
- Right-click on a project within your solution.
- Click on "Manage NuGet Packages...".
- Click on the "Browse" tab and search for "Innovian.Contrib.Dapr.StateQueryBuilder".
- Click on the Innovian.Contrib.Dapr.StateQueryBuilder package, select the appropriate version in the right-tab and click Install.
Usage
This is a fluent API, meaning that the idea is that create a new instance of the query builder and then iteratively use method chaining to append further criteria to the end of it, ultimately returning an object that creates whatever it was you were intending to build. This project fully implements the Dapr query state functionality
(currently in an Alpha stage) as described here, including the filter, sort and page functionality. There are several examples demonstrating use of these in the test project, but I'll focus on recreating the examples in the Dapr documentation here. Do note that while I'm using the Trim()
method in the linked unit tests with the value, this isn't really necessary in normal practice - it's necessary here so extraneous whitespace doesn't mess with the expected unit test values as a result of the indentation.
First, we're going to need a type to query. This can be either a record or class and ours will take the following shape:
public record SampleData([property: JsonPropertyName("person")] Person Person, [property: JsonPropertyName("city")] string City, [property: JsonPropertyName("state")] string State);
public record Person([property: JsonPropertyName("org")] string Org, [property: JsonPropertyName("id")] string Id);
A couple of things to note:
- This project uses System.Text.Json internally.
- I'm using the
JsonPropertyName
attribute on the record properties to override the default property names thatSystem.Text.Json
would normally use as the example here in order to force them to be strictly lower-cased to match the Dapr documentation examples. Feel free to pass your - own
JsonSerializationOptions
into the QueryBuilder constructor to provide your own serialization preferences (e.g. use indenting, allow trailing commas, use camel-casing without attributes, etc.). - I highly recommend that if you use your own
JsonSerializerOptions
instance, you setDefaultIgnoreCondition
toJsonIgnoreCondition.WhenWritingNull
as the fluent builder intends this to be set so as to prune off unintended branches.
Example 1
The approach is quite simple. In the first documentation example, we're going to filter where the "state' property equals "CA" and then sort in descending order by the "person.id" property. For ease of readability for the output, I'll use my own JsonSerializerOptions and set the WriteIndented property to true.
We'll start with the following:
public void Example1()
{
var opt = new JsonSerializerOptions
{
WriteIndented = true,
DefaultIgnoreCondition = JsonIgnoreCondition.WhenWritingNull
};
var result = new QueryBuilder<SampleData>(opt)
.Where(data => data.Eq(prop => prop.State, "CA"))
.Sort(prop => prop.Person.Id, Ordering.Descending)
.Build();
}
And with that we're effectively done, but let me provide a brief explanation to each line.
- We start by instantiating a new
JsonSerializerOptions
instance and setting the two properties we desire. - Create a new QueryBuilder instance and specify the type you intend to query the Dapr storage state for as the type param. Optionally pass in your
JsonSerializerOptions
as the only argument on the constructor. - If you were going to page the values at all, you'd do so here, but in this example, we'll skip that and revisit in a later example.
- You may then specify zero or more uses of
.Where
to add more filters to your query. This also supports nested filters, but we'll get there in a later example. You can specify either "Equals" (single comparison value) or "In" (collection of comparison value) and within that method, indicate the property the condition should be applied to and the value(s) to compare to it. - Following any
Where
filters, you can then specify zero or moreSort
queries that allow to you indicate a property (root or nested) on the type you indicated and indicate whether the sorting should be applied in an ascending or descending manner. - The
ToString
method is overridden in the implementation to actually perform the serialization of the underlying objects, so whileBuild()
is a useful part of indicating to the builer that you're finished creating the structure, it's the use ofToString()
that actually yields the JSON query string. While the use ofBuild
isn't strictly necessary at this point, it's recommended to use it because the Dapr query state API is only in an alpha state. Because everything is subject to change, the use ofBuild()
might become required in the future. Regardless, you'll find that some unit tests exclude it primarily for testing purposes.
Matching the example in the documentation, result
now has a value as follows:
{
"filter": {
"EQ": {
"state": "CA"
}
},
"sort": [
{
"key": "person.id",
"order": "DESC"
}
]
}
Example 2
Here, we'll look at the slightly more complicated example 2 from the Dapr documentation. This example seeks only to show off the In
capability. Unlike an Eq
filter which compares a given property on the object to a single value, an In
filter compares that specified property on the object to any of a collection of values. This example in particular is going to use the person.org
property from our SampleData
type above and use an In
filter to compare its value any of those in the following list: either "Dev Ops" or "Hardware".
You'll see the code is quite similar to our first example:
public void Example2()
{
var opt = new JsonSerializerOptions
{
WriteIndented = true,
DefaultIgnoreCondition = JsonIgnoreCondition.WhenWritingNull
};
var result = new QueryBuilder<SampleData>(opt)
.Where(data => data.In(prop => prop.Person.Org, "Dev Ops", "Hardware"))
.Build()
.ToString();
}
As before, we start by defining our JsonSerializerOptions
. We pass that into the constructor of our QueryBuilder and once again use the SampleData
type parameter, indicating that the property selection will be performed against that type. Where in the last example we used Eq
for the filter, here we'll instead use In
. We'll start by specifying which property should be used in the statement and then enter the string value(s) to match to with as many values as you wish. Again, we mark the end of the query with Build()
and then render it to a JSON string with the use of the ToString()
override. As expected, this yields the following output:
{
"filter": {
"IN": {
"person.org": [
"Dev Ops",
"Hardware"
]
}
}
}
Example 3
This one is a little bit more complex as we'll combine nested filtering, sorting and paging to match the example given in the Dapr documentation. Here, we'll find all the employees in the "Dev Ops" department OR all the employees from the "Finance" department that reside in the states of either Washington or California. Finally, we'll limit the result to only 3 records at a time and then sort the results first by state in descending alphabetical order, then by employee ID in ascending order.
Here's what the C# for this looks like:
public void Example3()
{
var opt = new JsonSerializerOptions
{
WriteIndented = true,
DefaultIgnoreCondition = JsonIgnoreCondition.WhenWritingNull
};
var result = new QueryBuilder<SampleData>(opt)
.WithPaging(3)
.Where(b => b
.Or(new FilterQuery<SampleData>().Eq(a => a.Person.Org, "Dev Ops"),
new FilterQuery<SampleData>()
.And(new FilterQuery<SampleData>().Eq(a => a.Person.Org, "Finance"),
new FilterQuery<SampleData>().In(a => a.State, "CA", "WA"))))
.Sort(a => a.State, Ordering.Descending)
.Sort(a => a.Person.Id)
.Build()
.ToString();
}
Once more we start with the JsonSerializerOptions
simply so the output is indented for our purposes here. We then start with another instance of the QueryBuilder
to which we again specify the type we're building the filter against and pass in our JsonSerializerOptions
as the constructor parameter. We then apply the paging options we want to. In this example, we're going to limit the number of returned values to 3, so we've specified as much here. If we were given a continuation token from a previous query, we could also specify that here as either a named argument for the "continuationToken" or as the second argument if also providing a paging limit.
On the next line, we start the filtering. Note that instead of immediately diving into an Eq
or In
method, we'll instead specify an Or
as that's the outermost value of the query we're seeking to build. An Or
method accepts any number of typed FilterQuery
objects that themselves may introduce further nested And
s or Or
s or may themselves end the nesting by specifying either Eq
or In
. Here, we immediately specify that Person.Org
(or person.org
when accounting for the property names from the JsonPropertyName
attributes on the record properties) should equal "Dev Ops" per our requirements. In the next argument, we'll specify another FilterQuery, but we'll again immediately nest an And
within this and specify both an Eq
between "Person.Org" and "Finance" and then an `In" between "State" and either "CA" or "WA", again per the requirements.
Finally, the filter completed, we'll wrap up with the Sort methods. Sorts are applied in the order specified, so as our requirements are to sort by the state in descending order, we'll indicate as much). On the next time, we'll sort by the "person.id" in the default order (which the docs indicate is ascending order). If preferred, you could just as well have specified Ordering.Ascending
here as well.
Per the recommendation, we finalize with Build()
and render it to JSON with `ToString() to get the following:
{
"filter": {
"OR": [
{
"EQ": {
"person.org": "Dev Ops"
}
},
{
"AND": [
{
"EQ": {
"person.org": "Finance"
}
},
{
"IN": {
"state": [
"CA",
"WA"
]
}
}
]
}
]
},
"sort": [
{
"key": "state",
"order": "DESC"
},
{
"key": "person.id",
"order": "ASC"
}
],
"page": {
"limit": 3
}
}
Running unit tests
All the unit tests were written using MSTestv2 and can be run using your favorite test runner from the Innovian.Contrib.Dapr.StateQueryBuilder.Tests
project.
Contributing
Contributions are welcome. Please read our contributing guide to learn more about filing issues and submitting PRs.
License
Innovian.Contrib.Dapr.StateQueryBuilder is licensed for use under the Apache 2.0 license
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net7.0 is compatible. 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. |
-
net7.0
- No dependencies.
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
2023.10.3.5 | 624 | 10/3/2023 |
2023.10.3.4 | 121 | 10/3/2023 |
2023.10.3.3 | 145 | 10/3/2023 |
2023.10.3.2 | 140 | 10/3/2023 |