Definition
DEFINITION |
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The WorkflowInterpreter is used to express interactions with the system under development that must be performed in a particular order. This form of specification provides information about the business flow. When a sequence of action is executed, confirms that each action has successfully been performed.
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Specific Keywords
offers a list of useful keywords to support the Business Expert. Those keywords are placed at the beginning of an action row.
Accept | Confirm that the action as been executed by the system under development. |
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Check | Verify the specified expected value with the value returned by the system under development |
Reject | The action should not be performed by the system under development (expected errors). |
Display | Print the value returned by the system under development. |
Coloring
will visually show the test result by coloring each testing cell:
When the action has been executed successfully, color the cell(s) in green.
If the action execution has failed, color the cell(s) in red.
If the system encounters an execution error, the cell is colored yellow and provides information about the error.
When the action has been executed successfully, will display the returned value in gray.
Standard form (without keyword) | Only the Action description will be colored. |
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Accept | Only the cell containing the keyword Accept will be colored. |
Check | The cell containing the expected value will be colored. In case of a failure, will show the expected and the returned values. |
Reject | Only the cell containing the keyword Reject will be colored. |
Display | A new cell at the end of the row will be colored containing the returned value. |
Writing fixtures for Workflow tables
As we've seen in the Workflow definition, a sequence of tables is used to express a business flow in the application under development.
When running the table, uses a fixture to mediate between the example expressed in the sequence of tables and the system under development. The fixture code defines how the specific actions are mapped to the application code.
This page shows the fixture code that supports the examples introduced in the Writing a Workflow specification.
Fixture for Bank
Consider the first example of business flow described in Writing a Workflow specification, shown again below.
Workflow | bank |
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open checking account | 12345-67890 | under the name of | Spongebob | Squarepants |
check | that balance of account | 12345-67890 | is | $0.00 |
end |
The first table indicates to use a WorkflowInterpreter , which handles a business flow expressed as a sequence of tables. The fixture Bank will do the mediation with the application under development.
The interpreter will run all the tables until the end of the document. In this case, the second and third tables compose the business flow example.
The second table indicates to perform the action open checking account under the name of on the system under development, with the parameters 12345-67890, Spongebob and Squarepants. That action will result in a call to the method openCheckingAccountUnderTheNameOf() on the fixture with the parameters 12345-67890, Spongebob and Squarepants.
The third table indicates to check the result of the action that balance of account is on the system under development with the expected value $0.00. That action results in a call to the method thatBalanceOfAccountIs on the fixture with the parameter 12345-67890. That method is expected to return a value, which will be asserted for equality against the domain representation for the value $0.00.
The fixture code to support this example in Java is the class BankFixture shown below.
Show me the code
public class BankFixture { private Bank bank; public BankFixture() { bank = new Bank(); } public boolean openCheckingAccountUnderTheNameOf(String number, String firstName, String lastName) { return bank.openCheckingAccount(number, new Owner(firstName, lastName)) != null; } public Money thatBalanceOfAccountIs(String accountNumber) throws Exception { BankAccount account = bank.getAccount(accountNumber); return account.getBalance(); } }
That class follows the general rules of fixtures described in Fixture Conventions. It provides public instance methods openCheckingAccount and thatBalanceOfAccount to map respectively to the actions open checking account and that balance of account.
The fixture does not much except from delegating the processing to the application code, in this case the Bank class.
public class Bank { private final HashMap<String, BankAccount> accounts; public Bank() { accounts = new HashMap<String, BankAccount>(); } public boolean hasAccount(String accountNumber) { return accounts.containsKey(accountNumber); } public BankAccount getAccount(String accountNumber) throws NoSuchAccountException { if (!hasAccount(accountNumber) throw new NoSuchAccountException(accountNumber); return accounts.get(accountNumber); } public CheckingAccount openCheckingAccount(String number, Owner owner) { if (hasAccount(number)) return null; CheckingAccount account = new CheckingAccount(number, owner); accounts.put(number, account); return account; } }
How is the example interpreted?
When it runs this example, reads the first table to decide on the interpreter and fixture to use and start testing from the second table, which is the first test table.
The second table is a default action, which carries out in the following sequence of steps:
- It calls the method openCheckingAccountUnderTheNameOf() with the parameters 12345-67890, Spongebob and Squarepants
- Since the method returns true, indicating a success, it marks the keyword cells as right, resulting in the first cell of the row being colored green.
The third table is a check action, which carries out in the following sequence of steps:
- It calls the method thatBalanceOfAccountIs() with the parameter 12345-67890 to get the value calculated by the system under test
- This is a check action, so it reads the value $0.00 from the last cell of the row and compares it to the value returned by the fixture. Since the values are equal, it annotates the last cell as right, which results in the cell being colored green.
What happens for other return types?
Default Rows
Depending on the value returned by the system under test, default actions will annotate keyword cells following these rules:
- If the value is true, it annotates keyword cells right, making them appear green.
- If the value is false - indicating a failure - it annotates keyword cells wrong, making them appear red.
- If the action throws an exception, it annotates the first keyword as an exception, making it appear yellow and display a stack trace of the error.
- If the action returns another value or nothing, it ignores the result.Check Rows
Depending on the value returned by the system under test, check actions will annotate the row following these rules:
- If the returned value matches the expected value, it annotates the last cell right, making it appear green.
- If the action returns nothing or a value that does not match the expected value - indicating a failure - it annotates the last cell wrong, making it appear red.
- If the action throws an exception, it annotates the first keyword as an exception, making it appear yellow and display a stack trace of the error.
Building on the Bank example
The second example in Writing a Worflow Specification, shown again below, presents a more complete business flow using the bank fixture.
Workflow | bank |
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open checking account | 12345-67890 | under the name of | Spongebob | Squarepants |
check | that balance of account | 12345-67890 | is | $0.00 |
deposit | $100.00 | in account | 12345-67890 | |
check | that balance of account | 12345-67890 | is | $100.00 |
withdraw | $50.00 | from account | 12345-67890 | |
check | that balance of account | 12345-67890 | is | $50.00 |
reject | withdraw | $75.00 | from account | 12345-67890 |
check | that balance of account | 12345-67890 | is | $50.00 |
accept | withdraw | $25.00 | from account | 12345-67890 |
end |
The fourth and last example table also contains several rows. In a sequence of actions, all of the rows in a table are executed, so several actions can be grouped in a table if that helps improve clarity.
In the first row of the last table, notice the use of the reject special keyword in the first cell. This indicates that the action for the row is expected to fail by either returning false or throwing an exception.
In the last row of the last table, the accept special keyword is used to indicate that we expect the last call to succeed. Accept is the opposite of reject. That is, the last withdraw should not return false nor throw an exception.
Reject Rows
Depending on the value returned by the system under test, reject actions will annotate the row following these rules:
- If the action returns false or throws an exception - indicating a success - it annotates the reject keyword right, making it appear green.
- If the returned value is anything else or nothing - indicating a failure - , it annotates the reject keyword wrong, making it appear red.
Accept Rows
Depending on the value returned by the system under test, accept actions will annotate the row following these rules:
- If the returned value is anything except false or an exception - indicating a success -, it annotates the accept keyword right, making it appear green.
- If the action returns false or throws an exception - indicating a failure - it annotates the accept keyword wrong, making it appear red.
Show me the code
The supporting code is here:
public class BankFixture { private Bank bank; public BankFixture() { bank = new Bank(); } public boolean openCheckingAccountUnderTheNameOf(String number, String firstName, String lastName) { return bank.openCheckingAccount(number, new Owner(firstName, lastName)) != null; } public Money thatBalanceOfAccountIs(String accountNumber) throws Exception { BankAccount account = bank.getAccount(accountNumber); return account.getBalance(); } public void depositInAccount(Money amount, String accountNumber) throws Exception { bank.deposit(amount, accountNumber); } public boolean withdrawFromAccount(Money amount, String accountNumber) throws Exception { return withdrawFromAccountUsing( amount, accountNumber, WithdrawType.ATM ); } public boolean withdrawFromAccountUsing(Money amount, String accountNumber, WithdrawType withdrawType) throws Exception { try { bank.withdraw(amount, accountNumber, withdrawType); } catch (Exception e) { return false; } return true; } public Collection getOpenedAccounts() { return bank.getAccounts(); } }
Combining with other types of rules
An interesting characteristic of the WorkflowInterpreter is the ability to delegate processing of part of the table to another interpreter.
If an interpreter is specified in the first cell of a row, the remainder of the table will be processed by that interpreter. The action for the row must return a fixture that will be used to interpret the rest of the table.
In the example show below, the first row of the second table indicates to process the rest of the table using a SetOfInterpreter on the value returned by the action opened accounts.
Workflow | bank |
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open checking account | 12345-67890 | under the name of | Spongebob | Squarepants | |
open savings account | 54321-09876 | under the name of | Patrick | Star |
set of | opened accounts | |
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number | type | owner name |
12345-67890 | checking | Spongebob Squarepants |
54321-09876 | savings | Patrick Star |
end |
Interpret Rows
Depending on the value returned by the system under test, interpret actions will annotate the row following these rules:
- If the returned value is an object, it uses the interpreter specified in the first cell on that object to interpret the remainder of the table. The row is not annotated.
- If the action returns nothing, it uses the interpreter without any fixture to interpret the remainder of the table. The row is not annotated.
- If the action throws an exception - indicating a failure - it annotates the first action keyword as exception, making appear yellow and display a stack trace of the error. The remainder of the table is not interpreted.
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