Source

rope / ropetest / refactor / restructuretest.py

from rope.refactor import restructure
from ropetest import testutils

import unittest


class RestructureTest(unittest.TestCase):

    def setUp(self):
        super(RestructureTest, self).setUp()
        self.project = testutils.sample_project()
        self.pycore = self.project.pycore
        self.mod = testutils.create_module(self.project, 'mod')

    def tearDown(self):
        testutils.remove_project(self.project)
        super(RestructureTest, self).tearDown()

    def test_trivial_case(self):
        refactoring = restructure.Restructure(self.project,
                                              'a = 1', 'a = 0')
        self.mod.write('b = 1\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('b = 1\n', self.mod.read())

    def test_replacing_simple_patterns(self):
        refactoring = restructure.Restructure(self.project,
                                              'a = 1', 'a = int(1)')
        self.mod.write('a = 1\nb = 1\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = int(1)\nb = 1\n', self.mod.read())

    def test_replacing_patterns_with_normal_names(self):
        refactoring = restructure.Restructure(
            self.project, '${a} = 1', '${a} = int(1)', args={'a': 'exact'})
        self.mod.write('a = 1\nb = 1\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = int(1)\nb = 1\n', self.mod.read())

    def test_replacing_patterns_with_any_names(self):
        refactoring = restructure.Restructure(self.project,
                                              '${a} = 1', '${a} = int(1)')
        self.mod.write('a = 1\nb = 1\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = int(1)\nb = int(1)\n', self.mod.read())

    def test_replacing_patterns_with_any_names2(self):
        refactoring = restructure.Restructure(
            self.project, '${x} + ${x}', '${x} * 2')
        self.mod.write('a = 1 + 1\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = 1 * 2\n', self.mod.read())

    def test_replacing_patterns_with_checks(self):
        self.mod.write('def f(p=1):\n    return p\ng = f\ng()\n')
        refactoring = restructure.Restructure(
            self.project, '${f}()', '${f}(2)', args={'f': 'object=mod.f'})
        self.project.do(refactoring.get_changes())
        self.assertEquals('def f(p=1):\n    return p\ng = f\ng(2)\n',
                          self.mod.read())

    def test_replacing_assignments_with_sets(self):
        refactoring = restructure.Restructure(
            self.project, '${a} = ${b}', '${a}.set(${b})')
        self.mod.write('a = 1\nb = 1\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a.set(1)\nb.set(1)\n', self.mod.read())

    def test_replacing_sets_with_assignments(self):
        refactoring = restructure.Restructure(
            self.project, '${a}.set(${b})', '${a} = ${b}')
        self.mod.write('a.set(1)\nb.set(1)\n')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = 1\nb = 1\n', self.mod.read())

    def test_using_make_checks(self):
        self.mod.write('def f(p=1):\n    return p\ng = f\ng()\n')
        refactoring = restructure.Restructure(
            self.project, '${f}()', '${f}(2)', args={'f': 'object=mod.f'})
        self.project.do(refactoring.get_changes())
        self.assertEquals('def f(p=1):\n    return p\ng = f\ng(2)\n',
                          self.mod.read())

    def test_using_make_checking_builtin_types(self):
        self.mod.write('a = 1 + 1\n')
        refactoring = restructure.Restructure(
            self.project, '${i} + ${i}', '${i} * 2',
            args={'i': 'type=__builtin__.int'})
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = 1 * 2\n', self.mod.read())

    def test_auto_indentation_when_no_indentation(self):
        self.mod.write('a = 2\n')
        refactoring = restructure.Restructure(
            self.project, '${a} = 2', '${a} = 1\n${a} += 1')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = 1\na += 1\n', self.mod.read())

    def test_auto_indentation(self):
        self.mod.write('def f():\n    a = 2\n')
        refactoring = restructure.Restructure(
            self.project, '${a} = 2', '${a} = 1\n${a} += 1')
        self.project.do(refactoring.get_changes())
        self.assertEquals('def f():\n    a = 1\n    a += 1\n', self.mod.read())

    def test_auto_indentation_and_not_indenting_blanks(self):
        self.mod.write('def f():\n    a = 2\n')
        refactoring = restructure.Restructure(
            self.project, '${a} = 2', '${a} = 1\n\n${a} += 1')
        self.project.do(refactoring.get_changes())
        self.assertEquals('def f():\n    a = 1\n\n    a += 1\n',
                          self.mod.read())

    def test_importing_names(self):
        self.mod.write('a = 2\n')
        refactoring = restructure.Restructure(
            self.project, '${a} = 2', '${a} = myconsts.two',
            imports=['import myconsts'])
        self.project.do(refactoring.get_changes())
        self.assertEquals('import myconsts\na = myconsts.two\n',
                          self.mod.read())

    def test_not_importing_names_when_there_are_no_changes(self):
        self.mod.write('a = True\n')
        refactoring = restructure.Restructure(
            self.project, '${a} = 2', '${a} = myconsts.two',
            imports=['import myconsts'])
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = True\n', self.mod.read())

    def test_handling_containing_matches(self):
        self.mod.write('a = 1 / 2 / 3\n')
        refactoring = restructure.Restructure(
            self.project, '${a} / ${b}', '${a} // ${b}')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = 1 // 2 // 3\n', self.mod.read())

    def test_handling_overlapping_matches(self):
        self.mod.write('a = 1\na = 1\na = 1\n')
        refactoring = restructure.Restructure(
            self.project, 'a = 1\na = 1\n', 'b = 1')
        self.project.do(refactoring.get_changes())
        self.assertEquals('b = 1\na = 1\n', self.mod.read())

    def test_preventing_stack_overflow_when_matching(self):
        self.mod.write('1\n')
        refactoring = restructure.Restructure(self.project, '${a}', '${a}')
        self.project.do(refactoring.get_changes())
        self.assertEquals('1\n', self.mod.read())

    def test_performing_a_restructuring_to_all_modules(self):
        mod2 = testutils.create_module(self.project, 'mod2')
        self.mod.write('a = 1\n')
        mod2.write('b = 1\n')
        refactoring = restructure.Restructure(self.project, '1', '2 / 1')
        self.project.do(refactoring.get_changes())
        self.assertEquals('a = 2 / 1\n', self.mod.read())
        self.assertEquals('b = 2 / 1\n', mod2.read())

    def test_performing_a_restructuring_to_selected_modules(self):
        mod2 = testutils.create_module(self.project, 'mod2')
        self.mod.write('a = 1\n')
        mod2.write('b = 1\n')
        refactoring = restructure.Restructure(self.project, '1', '2 / 1')
        self.project.do(refactoring.get_changes(resources=[mod2]))
        self.assertEquals('a = 1\n', self.mod.read())
        self.assertEquals('b = 2 / 1\n', mod2.read())

    def test_unsure_argument_of_default_wildcard(self):
        self.mod.write('def f(p):\n    return p * 2\nx = "" * 2\ni = 1 * 2\n')
        refactoring = restructure.Restructure(
            self.project, '${s} * 2', 'dup(${s})',
            args={'s': {'type': '__builtins__.str','unsure': True}})
        self.project.do(refactoring.get_changes())
        self.assertEquals('def f(p):\n    return dup(p)\nx = dup("")\n'
                          'i = 1 * 2\n', self.mod.read())


if __name__ == '__main__':
    unittest.main()
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