Testing Clarity code with JS and Mocha
#
IntroductionClarity, the smart contracting language, is based on LISP. Clarity is an interpreted language, and decidable. In this tutorial, you will learn how to test Clarity and how to use Mocha to test Clarity contracts while you develop them.
- Have a working Clarity starter project
- Understand how to test Clarity code using
.ts
files and Mocha.
#
Prerequisites#
Node environmentTo complete the tutorial, you should have NodeJS installed on your workstation. To install and run the starter project, you'll need version 8.12.0
or higher. You can verify your installation by opening your terminal and run the following command:
node --version
#
Download a starter projectUsing your terminal, run the following command to create a new folder and initialize a new project:
mkdir hello-world; cd hello-worldnpm init clarity-starter
After the starter project is created, you can select a template and a name for your local project folder. Feel free to hit ENTER both times to accept the default suggestion.
? Template - one of [hello-world, counter]: (hello-world)
Finally, after the project dependencies are installed, your project is ready for development.
The project resources are created in your current folder. Take note of the contracts
and test
folders. The other files are standardized components required to run the project.
#
Run testsThe starter project comes with test tooling already set up for you using Mocha. You can now run the tests and review the results:
In the project root directory, run the following command:
npm test
You'll see the following response:
hello world contract test suite โ should have a valid syntax deploying an instance of the contract โ should return 'hello world' โ should echo number
3 passing (412ms)
Great, all tests are passing. Now, let's have a look at the test implementation. That helps understand how to interact with Clarity smart contracts.
#
Interact with contractsTests are located in the test
folder, let's have a look at the tests associated with the hello-world.clar
file.
Run the following command:
cat test/hello-world.ts
Take a few seconds to review the contents of the file. You should ignore the test setup functions and focus on the most relevant parts related to Clarity.
Note that we're importing modules from the @blockstack/clarity
package:
import { Client, Provider, ProviderRegistry, Result,} from "@blockstack/clarity";
#
Initializing a clientAt the test start, we are initializing a contract instance helloWorldClient
and a provider that simulates interactions with the Stacks 2.0 blockchain. If this was in a production environment, the contract instance would be the equivalent of a contract deployed to the blockchain. The provider would be the Stacks blockchain.
let helloWorldClient: Client;let provider: Provider;
(...)
provider = await ProviderRegistry.createProvider();helloWorldClient = new Client("SP3GWX3NE58KXHESRYE4DYQ1S31PQJTCRXB3PE9SB.hello-world", "hello-world", provider);
Take a look at the client initialization. It requires a contract identifier in the following format: {contract_address}.{contract_name}
. The second argument indicates the location of the smart contract file, without the .clar
suffix. By default, the location is assumed to be relative to the contracts
folder.
As you can see above, a sample Stacks address and contract identifier are already provided for you. You don't need to modify anything.
#
Checking syntaxNext, we check the contract for valid syntax. If the smart contract implementation has syntax error (bugs), this check fails:
await helloWorldClient.checkContract();
Note that the checkContract()
function returns a Promise. The await
command makes sure JavaScript is not executing the next lines until the contract check completes.
#
Deploying contractFurther down in the file, you find a contract deployment:
await helloWorldClient.deployContract();
#
Run public functionsFinally, you will find snippets that call the public say-hi
function of the contract:
const query = helloWorldClient.createQuery({ method: { name: "say-hi", args: [] },});const receipt = await helloWorldClient.submitQuery(query);const result = Result.unwrapString(receipt);
As you see, smart contract calls are realized through query definitions. The createQuery
function defines the name and arguments passed to the smart contract function. With submitQuery
, the function is executed and the response is wrapped into a Result
object. To obtain the readable result, we use the unwrapString
function that returns hello world
.
Now, review the last test should echo number
on your own and try to understand how arguments are passed to the echo-number
smart contract.
With the completion of this tutorial, you:
- Created a working Clarity starter project
- Understood how to test Clarity contracts
Congratulations.