CONTRIBUTING.md

Contributing to Gherkin

Gherkin is implemented in several languages. Each implementation is in a separate subdirectory in this repository.

Project organisation

Each subdirectory is a stand-alone project using the preferred tools for that language, you can find more detailed information in <language>/CONTRIBUTING.md.

Each gherkin implementation depends on two common files.

• gherkin-langauges.json containing translations of the Gherkin Keywords
• gherkin.berp from which a parser is generated.

To reduce the complexity of common tasks: copying and/or generating localisations and generating the parser is done separately from building each project.

Contributing changes

• Create a feature branch for your change.
• Don't lump unrelated changes together.
• If you change code, please make sure all implementations are changed accordingly.
  • If you don't to do this, we might reject your patch because the burden to keep parsers in sync is now on us.

Generating parsers

Prerequisites:

• .NET 5.0 (to run berp to generate parsers)
• berp (install with dotnet tool update Berp --version 1.3.0 --tool-path /usr/bin )
• make
• jq (>= 1.4 for --sort-keys option)
• diff
• git

With all this installed use Make:

make generate
make clean-generate

Adding or updating an i18n language

Prerequisites:

• make
• jq (>= 1.4 for --sort-keys option)
• git

1. Edit gherkin-langauges.json.

2. Distribute the changes to the different parser implementations, this requires make, jq, diff, but no compiler/interpreters:

make clean-gherkin-languages
make copy-gherkin-languages

3. Make a pull request with the changed files.

Running tests

Each subproject has its own unit tests that are run during the build of that project.

In addition to these tests, make acceptance will run acceptance tests that verify the output of:

• the scanner
• the parser
• the compiler (WIP)

This is done by consuming the *.feature files under ../testdata and comparing the actual output with expected output (*.feature.tokens and *.feature.ast.json files) using diff.

make will remove the generated file unless it is identical to the expected file so that it will try to regenerate it the next time you run make.

When all files are identical and successfully compared, make will create the .compared file, indicating that the acceptance tests passed.

Consistency between implementations

TL;DR anyone who only knows one of the supported programming languages should be able to fix a bug or add a feature in all the other implementations. - By virtue of finding their way around a consistently organised codebase.

As of May 2016 Gherkin is implemented in 8 languages. This number is likely to increase to a dozen within a year or two. Very few programmers are intimate with all those languages. Therefore, in order to make it as easy as possible to refactor, fix bugs, add features and release packages it is essential that all implementations have a similar structure.

For example, I (Aslak) don't currently know go at all, and very little Python. Still, I have been able to fix bugs and refactor the go and python code simply because I know where to find stuff since all implementations follow the same structure.

If one implementation looks completely different, this becomes a huge burden that will slow everything down.

So for this reason, please don't start a new implementation that does not use Berp, or add a feature in one implementation without also doing it in all the other implementations. Don't refactor the code to follow some nice design pattern if it makes the code so different from the other implementations that it can no longer be maintained by someone who doesn't know the language.

Implementing a parser for a new language

First off, fork the repository and create a branch for the new language.

Create a new directory for the new language and copy the Makefile from one of the existing implementations. Now, modify the parts of the Makefile that generates the Parser.x file, referring to the gherkin-x.razor file you're about to create.

When you run make generate it should complain that gherkin-x.razor does not exist.

Now, copy a .razor file from one of the other implementations.

Your .built target should compile your code (if necessary) and run unit tests. You won't need a lot of unit tests (the cross-platform acceptance tests are pretty good), but writing a few during development might help you progress.

You'll spend quite a bit of time fiddling with the .razor template to make it generate code that is syntactically correct.

When you get to that stage, make clean acceptance will run the acceptance tests, which iterate over all the .feature files under ../testdata, passes them through your bin/gherkin-generate-tokens and bin/gherkin-generate-ast command-line programs, and compares the output using diff.

You'll start out with lots of errors, and now you just code until all acceptance tests pass!

Then send us a pull-request :-)

And if you're stuck - please shoot message to the #commiters channel in the CucumberBDD Slack ^{direct link}.

Make a release

See RELEASING.md

Verify all of Cucumber's i18n examples

If you have cucumber-ruby cloned next to the gherkin directory, try processing all of the files.

With just the scanner:

[LANGUAGE]/bin/gherkin-generate-tokens `find ../cucumber-ruby/examples -name "*.feature"`

With the parser:

[LANGUAGE]/bin/gherkin-generate-ast `find ../cucumber-ruby/examples -name "*.feature"`

Adding or changing good testdata

Test data for acceptance testing are available in the top-level testdata

Approach 1

1. Work in a specific gherkin/<lang> folder
2. Create empty testdata ndjson/tokens files (or delete the contents if you are updating existing tests)
   • <test>.feature.ast.ndjson
   • <test>.feature.pickles.ndjson
   • <test>.feature.source.ndjson
   • <test>.feature.tokens
3. Run make and watch it fail
4. Inspect the diff error to approve the output
   • Copy approved output to the matching, empty ndjson/tokens file
   • Repeat until the build succeeds

Approach 2

1. Add/edit a .feature file in testdata/good

2. Generate the tokens:

   For example:

   cd [LANGUAGE] bin/gherkin-generate-tokens
   ../testdata/good/new_file.feature >
   ../testdata/good/new_file.feature.tokens

3. Inspect the generated .feature.tokens file manually to see if it's good.

4. Generate the ast: cd [LANGUAGE] bin/gherkin --no-source --no-pickles
   ../testdata/good/new_file.feature |
   jq --sort-keys --compact-output "." >
   ../testdata/good/new_file.feature.ast.ndjson

5. Inspect the generated .feature.ast.ndjson file manually to see if it's good.

6. Generate the pickles:

   cd [LANGUAGE] bin/gherkin --no-source --no-ast
   ../testdata/good/new_file.feature |
   jq --sort-keys --compact-output "." >
   ../testdata/good/new_file.feature.pickles.ndjson

7. Inspect the generated .feature.pickles.json file manually to see if it's good.

8. Run make acceptance from the root directory to verify that all parsers parse it ok.