Cucumber Expressions is an alternative to Regular Expressions with a more intuitive syntax.
Try Cucumber Expressions in your browser.
Cucumber supports both Cucumber Expressions and Regular Expressions for defining Step Definitions, but you cannot mix Cucumber Expression syntax with Regular Expression syntax in the same expression.
On platforms that don't have a literal syntax for regular expressions (such as Java),
Cucumber will create a Cucumber Expression by default. To use Regular Expressions, add anchors (starting with ^
and ending with $
) or forward slashes (/
). For more information, see
Cucumber Expression - Java Heuristics.
Let's write a Cucumber Expression that matches the following Gherkin step (the Given
keyword has been removed here, as it's not part of the match).
I have 42 cucumbers in my belly
The simplest Cucumber Expression that matches that text would be the text itself,
but we can also write a more generic expression, with an int
output parameter:
I have {int} cucumbers in my belly
When the text is matched against that expression, the number 42
is extracted
from the {int}
output parameter and passed as an argument to the step definition.
The following text would not match the expression:
I have 42.5 cucumbers in my belly
This is because 42.5
has a decimal part, and doesn't fit into an int
.
Let's change the output parameter to float
instead:
I have {float} cucumbers in my belly
Now the expression will match the text, and the float 42.5
is extracted.
Text between curly braces reference a parameter type. Cucumber comes with the following built-in parameter types:
Parameter Type | Description |
---|---|
{int} |
Matches integers, for example 71 or -19 . Converts to a 32-bit signed integer if the platform supports it. |
{float} |
Matches floats, for example 3.6 , .8 or -9.2 . Converts to a 32 bit float if the platform supports it. |
{word} |
Matches words without whitespace, for example banana (but not banana split ). |
{string} |
Matches single-quoted or double-quoted strings, for example "banana split" or 'banana split' (but not banana split ). Only the text between the quotes will be extracted. The quotes themselves are discarded. Empty pairs of quotes are valid and will be matched and passed to step code as empty strings. |
{} anonymous |
Matches anything (/.*/ ). |
{bigdecimal} |
Matches the same as {float} , but converts to a BigDecimal if the platform supports it. |
{double} |
Matches the same as {float} , but converts to a 64 bit float if the platform supports it. |
{biginteger} |
Matches the same as {int} , but converts to a BigInteger if the platform supports it. |
{byte} |
Matches the same as {int} , but converts to an 8 bit signed integer if the platform supports it. |
{short} |
Matches the same as {int} , but converts to a 16 bit signed integer if the platform supports it. |
{long} |
Matches the same as {int} , but converts to a 64 bit signed integer if the platform supports it. |
The anonymous parameter type will be converted to the parameter type of the step definition using an object mapper.
Cucumber comes with a built-in object mapper that can handle all numeric types as well as. Enum
.
To automatically convert to other types it is recommended to install an object mapper. See cucumber-java - Default Transformers to learn how.
Java supports parsing localised numbers. I.e. in your English feature file you can format a-thousand-and-one-tenth as '1,000.1; while in French you would format it as '1.000,1'.
Parsing is facilitated by Javas DecimalFormat
and includes support for the scientific notation. Unfortunately the default
localisation include symbols that can not be easily written on a regular
keyboard. So a few substitutions are made:
- The minus sign is always hyphen-minus - (ascii 45).
- If the decimal separator is a period (. ascii 46) the thousands separator is a comma (, ascii 44). So '1 000.1' and '1’000.1' should always be written as '1,000.1'.
- If the decimal separator is a comma (, ascii 44) the thousands separator is a period (. ascii 46). So '1 000,1' or '1’000,1' should always be written as '1.000,1'.
If support for your preferred language could be improved, please create an issue!
Cucumber Expressions can be extended so they automatically convert output parameters to your own types. Consider this Cucumber Expression:
I have a {color} ball
If we want the {color}
output parameter to be converted to a Color
object,
we can define a custom parameter type in Cucumber's configuration.
The table below explains the various arguments you can pass when defining a parameter type.
Argument | Description |
---|---|
name |
The name the parameter type will be recognised by in output parameters. |
regexp |
A regexp that will match the parameter. May include capture groups. |
type |
The return type of the transformer. |
transformer |
A function or method that transforms the match from the regexp. Must have arity 1 if the regexp doesn't have any capture groups. Otherwise the arity must match the number of capture groups in regexp . |
useForSnippets / use_for_snippets
|
Defaults to true . That means this parameter type will be used to generate snippets for undefined steps. If the regexp frequently matches text you don't intend to be used as arguments, disable its use for snippets with false . |
preferForRegexpMatch / prefer_for_regexp_match
|
Defaults to false . Set to true if you have step definitions that use regular expressions, and you want this parameter type to take precedence over others during a match. |
@ParameterType("red|blue|yellow") // regexp
public Color color(String color){ // type, name (from method)
return new Color(color); // transformer function
}
@ParameterType("red|blue|yellow") // regexp
fun color(color: String): Color { // name (from method), type
return Color(color) // transformer function
}
ParameterType("color", "red|blue|yellow") { color: String => // name, regexp
Color(color) // transformer function, type
}
import { defineParameterType } from '@cucumber/cucumber'
defineParameterType({
name: 'color',
regexp: /red|blue|yellow/,
transformer: s => new Color(s)
})
The transformer
function may return a Promise
.
ParameterType(
name: 'color',
regexp: /red|blue|yellow/,
type: Color,
transformer: ->(s) { Color.new(s) }
)
[StepArgumentTransformation("(red|blue|yellow)")]
public Color ConvertColor(string colorValue)
{
return new Color(colorValue);
}
Note: Currently the parameter name cannot be customized, so the custom parameters can only be used with the type name, e.g. {Color}
.
ParameterType(
name= "color",
regexp= "red|blue|yellow",
type= Color,
transformer= lambda s: Color(s),
)
It's grammatically incorrect to say 1 cucumbers, so we should make the plural s optional. That can be done by surrounding the optional text with parentheses:
I have {int} cucumber(s) in my belly
That expression would match this text:
I have 1 cucumber in my belly
It would also match this text:
I have 42 cucumbers in my belly
In Regular Expressions, parentheses indicate a capture group, but in Cucumber Expressions they mean optional text.
Sometimes you want to relax your language, to make it flow better. For example:
I have {int} cucumber(s) in my belly/stomach
This would match either of those texts:
I have 1 cucumber in my belly
I have 1 cucumber in my stomach
I have 42 cucumbers in my stomach
I have 42 cucumbers in my belly
Alternative text only works when there is no whitespace between the alternative parts.
If you ever need to match ()
or {}
literally, you can escape the
opening (
or {
with a backslash:
I have {int} \{what} cucumber(s) in my belly \(amazing!)
This expression would match the following examples:
I have 1 {what} cucumber in my belly (amazing!)
I have 42 {what} cucumbers in my belly (amazing!)
You may have to escape the \
character itself with another \
, depending on your programming language.
For example, in Java, you have to use escape character \
with another backslash.
I have {int} \\{what} cucumber(s) in my belly \\(amazing!)
Then this expression would match the following example:
I have 1 \{what} cucumber in my belly \(amazing!)
I have 42 \{what} cucumbers in my belly \(amazing!)
The /
character will always be interpreted as an alternative, unless escaped, such as with \/
.
See ARCHITECTURE.md
The Cucumber Expression syntax is inspired by similar expression syntaxes in other BDD tools, such as Turnip, Behat and Behave.
Big thanks to Jonas Nicklas, Konstantin Kudryashov and Jens Engel for implementing those libraries.
The Tiny-Compiler-Parser tutorial by Yehonathan Sharvit inspired the design of the Cucumber expression parser.