Metadata-Version: 2.1
Name: auger-python
Version: 0.1.20
Summary: Automatically generate unit tests for Python code
Home-page: https://github.com/laffra/auger
Author: Chris Laffra
Author-email: laffra@gmail.com
License: UNKNOWN
Description: # Auger
        Auger is a project to automatically generate unit tests for Python code. 
        
        See
        [these slides](http://goo.gl/PuZsgX) 
        or
        [this blog](http://chrislaffra.blogspot.com/2016/12/auger-automatic-unit-test-generation.html)
        entry for more information.
        
        # Installation
        
        Install auger with:
        
            pip install auger-python
        
        # Usage
        
        Consider the following example, pet.py, that lets us create a Pet with a name and a species:
        
            from animal import Animal
            
            class Pet(Animal):
              def __init__(self, name, species):
                Animal.__init__(self, species)
                self.name = name
            
              def getName(self):
                return self.name
            
              def __str__(self):
                return "%s is a %s" % (self.getName(), self.getSpecies())
        
            def createPet(name, species):
              return Pet(name, species)
        
        A Pet is really a special kind of animal, with a name, defined in animal.py.
        
            class Animal(object):
              def __init__(self, species):
                self.species = species
            
              def getSpecies(self):
                return self.species   
            
        With those two definitions, we can create a Pet and print it out:
            
            import animal
            import pet
            
            def main():
              p = pet.createPet("Polly", "Parrot")
              print(p, p.getName(), p.getSpecies())
            
        This produces:
        
            Polly is a Parrot Polly Parrot
            
        With auger, we can record all calls to all functions and methods defined in pet.py,
        while trapping all calls going out from pet.py to other modules.
        
        Instead of saying:
        
            if __name__ == "__main__":
              main() 
        
        We would say:
        
            import auger
            if __name__ == "__main__":
              with auger.magic([pet]):
                main() 
        
        This produces the following automatically generated unit test for pet.py:
        
            from mock import patch
            from sample.animal import Animal
            import sample.pet
            from sample.pet import Pet
            import unittest
        
        
            class PetTest(unittest.TestCase):
                @patch.object(Animal, 'get_species')
                @patch.object(Animal, 'get_age')
                def test___str__(self, mock_get_age, mock_get_species):
                    mock_get_age.return_value = 12
                    mock_get_species.return_value = 'Dog'
                    pet_instance = Pet('Clifford', 'Dog', 12)
                    self.assertEquals(pet_instance.__str__(), 'Clifford is a dog aged 12')
        
                def test_create_pet(self):
                    self.assertIsInstance(sample.pet.create_pet(age=12,species='Dog',name='Clifford'), Pet)
        
                def test_get_name(self):
                    pet_instance = Pet('Clifford', 'Dog', 12)
                    self.assertEquals(pet_instance.get_name(), 'Clifford')
        
                def test_lower(self):
                    self.assertEquals(Pet.lower(s='Dog'), 'dog')
        
            if __name__ == "__main__":
                unittest.main()
        
        Note that auger detects object creation, method invocation, and static methods. As
        the getSpecies method is defined by the superclass, we mock it out, and make it return
        'Parrot', as that is what our test execution produced.
        
        By automatically generating unit tests, we dramatically cut down the cost of software 
        development this way. 
        
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 2.7
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
