shorthand method to create an Arguments object
shorthand method to create an Arguments object
this method can be overridden to throw exceptions when checking the match result
this method can be overridden to throw exceptions when checking the match result
this method can be overridden to throw exceptions when checking the match result
this method can be overridden to throw exceptions when checking the match result
this method can be overridden to throw exceptions when checking the result
this method can be overridden to throw exceptions when checking the result
an Expectable with a description function
an Expectable with a description function
an Expectable with a description
an Expectable
an Expectable with a function to show the element T
describe a value with the aka method
describe a value with the aka method
an example factory which will take the stored results and make them the example result
modify the specification structure
modify the specification structure
modify the fragments, using the current environment
modify the fragments, using the current environment
modify the fragments
modify the fragments
this method can be overridden to intercept a MatchResult and change its message before it is thrown
this method can be overridden to intercept a MatchResult and change its message before it is thrown
create a new Context with the list of captured results.
create a new Context with the list of captured results.
This method could be overridden to filter the captured results and remove the skipped results for example
the match result without any side-effects
this method can be overridden to avoid filling-in a stacktrace indicating the location of the result
this method can be overridden to avoid filling-in a stacktrace indicating the location of the result
A value can be tested against another with the === operator.
A value can be tested against another with the === operator. It is equivalent to writing a must_== b
This trait can be mixed-in a specification to allow examples to have all of their expectations being evaluated (unless the example body throws an exception of course).
All the results are collected into a list, provided by the StoredExpectations trait. These results form then the body of the each example (decorated by a special ExampleFactory) so that each example returns a Result which is the summary of all the individual issues.
It must be noted that this trait relies on a mutable list to collect the results as they are created in the example body. Because of this restriction, a Specification using that trait can either run sequentially or isolated.
If the specification is neither sequential or isolated, we force it to be isolated by default.