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Description

The goal of this library is to help you to write property-based tests by utilizing the power of Exop and StreamData. If you already use Exop it is super easy. Even if you haven't had Exop in your project yet you can use ExopData - just need to provide a desirable params description (contract) that conforms Exop operation's contract format (the list of %{name: atom(), opts: keyword()}).

Monthly Downloads: 33
Programming language: Elixir
License: MIT License
Tags: Testing     Data     Property-based Testing     Tools    
Latest version: v0.1.7

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README

ExopData

Hex.pm API Docs Build Status

The goal of this library is to help you to write property-based tests by utilizing the power of Exop and StreamData. If you already use Exop it is super easy. Even if you haven't had Exop in your project yet you can use ExopData - just need to provide a desirable params description (contract) that conforms Exop operation's contract format (the list of %{name: atom(), opts: keyword()}). Not interested in property-based testing, but need to generate data? ExopData will help you with this as well.

Here is the CHANGELOG

Supported Exop version: 1.2.5

It means ExopData supports a certain contract notation version (types, checks, aliases etc.) Usually, ExopData lag behind Exop's new version for some time (depending on Exop's release size and introduced contract notation changes). Please refer to Exop's changes

Table of Contents

Installation

def deps do
  [{:exop_data, "~> 0.1.7"}]
end

Why?

For either some projects or certain tasks property-based testing allows you to get your code tested and proved for all available cases. But it could be challenging and takes a lot of time to prepare proper data generators. Provide correct generators for relatively complex data types is hard. Such generators take a number of lines in your code, they are hard to read and maintain. It could be repetitive work either.

ExopData offers you a convinient way to generate data based on Exop's operation (which is basically awesome) or on a contract which is defined in delclarative, intuitive way. ExopData easy to use and read. It is simply a joy to write property-based tests with ExopData.

Not interested in getting your code well-organized with Exop nor in property-based testing? Well, consider data generating with ExopData at least.

How does it work?

ExopData generates data with StreamData generators. As an incoming argument ExopData expects an Exop operation module or (if you not ready yet to bring Exop into your project) a contract which describes a set of parameters and their checks (validations). Parameter checks definitions are based (actually they are the same) on Exop's checks.

Simply said, ExopData resolves an incoming contract and generates StreamData generators. At the end you receive a map where keys are parameters names and their values as map values.

Contract

As it said earlier, a contract is a way to describe your data expectations. The easiest way is to define an Exop Operation module. By invoking YourOperation.contract() you might see this operation contract which was defined with parameter macro. Basically, a contract is a list of maps [%{name: _param_name, opts: [_param_opts_checks]}]. So there is no strict need to have an Exop Operation module defined.

Although in order to describe a parameter checks and options you should use Exop checks.

A contract might look like this:

[
  %{name: param_a, opts: [type: :atom, required: false]},
  %{name: param_b, opts: [type: :integer, numericality: %{min: 0, max: 10}]},
  # more params here
]

Property-based testing

In order to generate data you need to prepare a contract, use ExopData module and invoke exop_data/2 function. Where the first argument is the contract and the second are Keyword list of additional options.

defmodule ExopPropsTest do
  use ExUnit.Case, async: true
  use ExUnitProperties

  @contract [
    %{name: :a, opts: [type: :integer, numericality: %{greater_than: 0}]},
    %{name: :b, opts: [type: :integer, numericality: %{greater_than: 10}]}
  ]

  property "Multiply" do
    check all %{a: a, b: b} <- ExopData.generate(@contract) do
      result = MathService.multiply(a, b)
      expected_result = a * b
      assert result == expected_result
    end
  end
end

Or if you have an Exop Operation defined:

defmodule MultiplyService do
  use Exop.Operation

  parameter(:a, type: :integer, numericality: %{greater_than: 0})
  parameter(:b, type: :integer, numericality: %{greater_than: 10})

  def process(%{a: a, b: b} = _params), do: a * b
end

defmodule ExopPropsTest do
  use ExUnit.Case, async: true
  use ExUnitProperties

  property "Multiply" do
    check all %{a: a, b: b} = params <- ExopData.generate(MultiplyService) do
      {:ok, result} = MultiplyService.run(params)
      expected_result = a * b
      assert result == expected_result
    end
  end
end

In both cases the result will be the same: ExopData takes either the explicit contract or the Operation module (and get it's contract under the hood) and generates a map, where keys are params defined in the contract.

Data generating

You can use ExopData not only in property tests, but in any place you need to generate data:

contract = [
  %{name: :a, opts: [type: :integer, numericality: %{greater_than: 0}]},
  %{name: :b, opts: [type: :integer, numericality: %{greater_than: 10}]}
]

#iex> contract |> ExopData.generate() |> Enum.take(5)
[
  %{a: 3808, b: 3328},
  %{a: 7116, b: 8348},
  %{a: 3432, b: 7134},
  %{a: 7024, b: 7941},
  %{a: 7941, b: 6944}
]

Or with an Exop Operation defined:

defmodule MultiplyService do
  use Exop.Operation

  parameter(:a, type: :integer, numericality: %{greater_than: 0})
  parameter(:b, type: :integer, numericality: %{greater_than: 10})

  def process(%{a: a, b: b} = _params), do: a * b
end

#iex> MultiplyService |> ExopData.generate() |> Enum.take(5)
[
  %{a: 401, b: 2889},
  %{a: 7786, b: 5894},
  %{a: 9187, b: 1863},
  %{a: 3537, b: 1285},
  %{a: 6124, b: 5521}
]

required check

By default a parameter and it's value will always be presented in the resulting map. If a parameter explicitly marked with the check required: false ExopData generates that parameter occasionally (sometimes there is such parameter in generated data, sometimes not). It allows us to generate fair data with all possible corner-cases for provided contract.

allow_nil option

A parameter might have allow_nil: true option. In this case ExopData put some amount of nil values into resulting data. This amount is random and > 0.

Complex data

ExopData allows you to generate pretty complex data structures by using list_item and inner parameter checks.

list_item check

This parameter check defines a specification for all items in a list. It can contain all the possible checks as regular parameter might have.

contract = [
  name: :param_list,
  opts: [type: :list, list_item: %{type: :string}, length: %{min: 1}]
]

That contract means that we expect :param_list parameter to be a required list which consist of a number of strings. length: %{min: 1} check means we expect to get at least one item in this list.

inner check

This check allow you to set expectations on a map parameter consist. Where keys are expected keys of the map parameter and values are their specifications.

contract = [
  name: :param_map,
  opts: [type: :map, inner: %{
    a: [type: :integer],
    b: [type: :string, required: false],
    c: [type: :list, list_item: %{type: :integer, numericality: %{min: 10}}]
  }]
]

Worth to note: keys defined in inner check will be present in generated map in any case. Additionally there might be a number of keys which were not defined explicitly. This is because ExopData tries to generate different cases, for example: "What if this map contains not only expected set of keys?"

As complex as you wish

Just kindly remind you: you can create a very complex contract (or describe it in Exop operation) by combining inner and list_item checks, make them nested etc.

Something crazy like this:

contract = [
  %{
    name: :complex_param,
    opts: [
      type: :map, inner: %{
        a: [type: :integer, numericality: %{in: 10..100}],
        b: [type: :list, length: %{min: 1}, list_item: %{
          type: :map, inner: %{
            c: [type: :list, list_item: %{
              type: :list, list_item: %{
                type: :map, inner: %{
                  d: [type: :string, length: %{is: 12}]
                }
              }
            }]
          }
        }]
      }
    ]
  }
]

Exop operations

As we mentioned earlier, you can generate data by providing Exop.Operation module.

defmodule MultiplyService do
  use Exop.Operation

  parameter(:a, type: :integer, numericality: %{greater_than: 0})
  parameter(:b, type: :integer, numericality: %{greater_than: 10})

  def process(%{a: a, b: b} = _params), do: a * b
end

#iex> MultiplyService |> ExopData.generate() |> Enum.take(5)
[
  %{a: 401, b: 2889},
  %{a: 7786, b: 5894},
  %{a: 9187, b: 1863},
  %{a: 3537, b: 1285},
  %{a: 6124, b: 5521}
]

So this helps to write tests a lot:

defmodule ExopPropsTest do
  use ExUnit.Case, async: true
  use ExUnitProperties

  property "Multiply" do
    check all %{a: a, b: b} = params <- ExopData.generate(MultiplyService) do
      {:ok, result} = MultiplyService.run(params)
      expected_result = a * b
      assert result == expected_result
    end
  end
end

It has been decided to make this even cleaner with check_operation macro:

defmodule ExopPropsTest do
  use ExUnit.Case, async: true
  use ExopData

  property "Multiply" do
    check_operation(MultiplyService, fn params ->
      assert is_intger(params.a)

      # you simply should define expected result of an Operation
      # under the hood this is compared with MultiplyService.run(params) result
      {:ok, params.a * params.b}
    end)
  end
end

And of course check_operation still can receive custom generators:

check_operation(MultiplyService, [generators: your_generators], fn params ->
  # your checks here
end)

Exop docs

We aren't going to provide a definitive guide for all possible checks and options which might be used in a contract definition, because all of them are described in Exop docs. Please, refer to it if needed.

Generator options

Custom generators

Sometimes you need to generate complex data or use specific values for your parameters. You can achieve it with custom generators. Take a look at the example:

contract = [
  %{name: :email, opts: [type: :string, format: ~r/@/]}
]

Let's say we want to use specific generator for this parameter:

import ExUnitProperties
import StreamData

domains = [
  "gmail.com",
  "hotmail.com",
  "yahoo.com",
]

email_generator =
  gen all name <- string(:alphanumeric),
          name != "",
          domain <- member_of(domains) do
    name <> "@" <> domain
  end

You just need to pass it to generate function with path to concrete parameter:

#iex> contract |> ExopData.generate(generators: %{email: email_generator}) |> Enum.take(2)
[%{email: "[email protected]"}, %{email: "[email protected]"}]

The cool thing is that it is also possible to pass specific generators for inner and list_item parameters and they can be nested as deep as you want:

contract = [
  %{
    name: :users,
    opts: [
      type: :list, list_item: [
        type: :map, inner: %{
          email: [type: :string, format: ~r/@/]
        }
      ]
    ]
  }
]

#iex> contract |> ExopData.generate(generators: %{users: [%{email: email_generator}]}) |> Enum.take(2)
[
  %{users: [%{email: "[email protected]"}]},
  %{users: [%{email: "[email protected]"}]}
]

In the example above generators: %{users: [%{email: email_generator}]} means that there is a custom generator for users param list item. And since it is a map, we've provided the generator for the particular email field.

So you can use any StreamData generators: default or custom.

Exact values

If you need exact value for your parameter just provide a specific value (implicit generator) or StreamData.constant/1 as custom generator.

For example:

contract = [%{name: :a, opts: [type: :atom]}]

check all params <- generate(contract, generators: %{a: :your_value}) do
  assert %{a: :your_value} == params
end
contract = [
  %{
    name: :a,
    opts: [type: :list, inner: %{b: [type: :atom]}]
  }
]

check all %{a: a} <- generate(contract, generators: %{a: [b: :your_value]}) do
  assert :your_value = a[:b]
end

Under the hood an exact value is wrapped with StreamData.constant/1 and returns a generator, so you can use StreamData.constant/1 itself if you like.

~g sigil

The best way to apply custom generators or certain values is ~g sigil. In order to use the sigil you need to add use ExopData into your tests module.

use ExopData

# let's say you have a contract (or an Operation with such contract)
contract = [
  %{
    name: :a,
    opts: [inner: %{
      b: [inner: %{
        c: [type: :integer],
        e: [inner: %{
          f: [type: :atom]
        }]
      }],
      d: [type: :string]
    }]
  }
]

# and you want :f within (a[:b][:f]) to have a specific value
# you can define it in your custom generators structure:
custom_generators = ~g[
  a: %{
    b: %{
      e: %{
        f: :my_atom
      }
    }
  }
]

# or you want :d (a[:d]) to be generated by `StreamData.binary/1` generator:
custom_generators = ~g[
  a: %{
    d: StreamData.binary()
  }
]

# or may be you want to combine:
custom_generators = ~g[
  a: %{
    b: %{
      e: %{
        f: StreamData.atom(:alias)
      }
    },
    d: "qwerty"
  }
]

# then just pass custom generators to `ExopData.generate/2`:
check all %{a: a} <- generate(contract, generators: custom_generators) do
  # your assertions here
end

It is worth to notice:

  • an empty map is treated as certain value
  • all fields that were ommited in custom generators definition will be generated according to a contract
contract = [
  %{
    name: :a,
    opts: [inner: %{
      b: [inner: %{
        c: [type: :integer],
        e: [inner: %{
          f: [type: :atom]
        }]
      }],
      d: [type: :string]
    }]
  }
]

custom_generators = ~g[
  a: %{}
]
#iex> ExopData.generate(contract, generators: custom_generators) |> Enum.take(2)
%{}
%{}

custom_generators = ~g[
  a: %{b: %{}}
]
#iex> ExopData.generate(contract, generators: custom_generators) |> Enum.take(2)
%{b: %{}}
%{b: %{}}

custom_generators = ~g[
  a: %{b: %{c: 123}}
]
#iex> ExopData.generate(contract, generators: custom_generators) |> Enum.take(1)
%{
  b: %{
    c: 123,
    e: %{
      f: :_vk5zBT_2suYbECXGrAxsb2ywyzThN5ql_460eyjNPsmwHEAg16CAf8ceDx7RGGJ_GjJehlieb3z
    }
  },
  d: "n9e"
}

custom_generators = ~g[
  a: %{d: "qwe"}
]
#iex> ExopData.generate(contract, generators: custom_generators) |> Enum.take(2)
%{b: %{c: -57, e: %{f: :X@VcshCgqnIthJ@wopGBU@F3Pc5FBxCKFfbKg}}, d: "qwe"}
%{b: %{c: 75, e: %{f: :wAeV3hG}}, d: "qwe"}

Limitations

struct: MyStruct | %MyStruct{}

Parameter with struct validation is populated with struct of random data. Imagine we have such contract:

contract = [%{name: :struct_param, opts: [struct: MyStruct]}]

ExopData might generate:

#iex> contract |> ExopData.generate() |> Enum.take(3)
[
  %{struct_param: %MyStruct{a: 1}},
  %{struct_param: %MyStruct{a: "0"}},
  %{struct_param: %MyStruct{a: ""}}
]

You can use exact values or custom generators options to build more specific values.

Sad but true: currently struct generator is not as efficient as map generator. So if you experience performace issues during your property tests, please consider type: :map in your contract or provide more specific checks for your struct (with inner for example).

type: :struct

This check usually means "this parameter should be some struct and I don't care which exactly". Even if it is possible to generate some maps with fake __struct__ key, we think that it is not the correct way to do so. You can use exact values, custom generators, struct: %MyStruct{} or type: :map.

Format (regex)

You can describe your parameters with format based on regular expressions:

contract = [
  %{
    name: :rsa_fingerprint,
    opts: [format: ~r/^(ssh-rsa) ([0-9]{3,4}) ([0-9a-f]{2}:){15}[0-9a-f]{2}$/]
  }
]

Thanks to the Randex we can generate data for such parameters as well:

#iex> contract |> ExopData.generate() |> Enum.take(3)
[
  %{
    rsa_fingerprint: "ssh-rsa 569 60:1b:bd:78:cc:8d:09:b8:ce:ee:0c:45:72:7c:0d:e8"
  },
  %{
    rsa_fingerprint: "ssh-rsa 737 0a:16:df:0a:5d:3b:8b:21:6d:bf:33:bf:06:44:5f:b7"
  },
  %{
    rsa_fingerprint: "ssh-rsa 3019 fc:ca:fe:a8:7c:63:c9:e5:46:0e:a3:e4:be:74:0f:35"
  }
]

At the moment Randex doesn't support some regular expressions, check docs for this library to know more. You can use exact values or custom generators options to build more specific values.

Sad but true: generating data based on a regex is time-consuming process. format check in your operation contract is good for validation, decent enough for just data generating and totally unefficient for property-based tests (as there are a lot of runs, therefore N*t where N is runs amount and t is time needed to generate your data).

Func

ExopData doesn't support data generation for parameters with func validations, use exact values or custom generators options to build values for such parameters.

Configuration

In order to speedup your props test during developent you can adjust StreamData's max_run configuration options, like this:

config :stream_data, max_runs: (if Mix.env() == :test, do: 50, else: 500)

StreamData config options (and their defaults):

max_runs: 100,
max_run_time: :infinity,
max_shrinking_steps: 100

Maintainers

Andrey Chernykh (madeinussr)

Aleksandr Fomin (llxff)

LICENSE

Copyright ยฉ 2018 - 2020 Andrey Chernykh ( [email protected] )

This work is free. You can redistribute it and/or modify it under the
terms of the MIT License. See the LICENSE file for more details.


*Note that all licence references and agreements mentioned in the ExopData README section above are relevant to that project's source code only.