"""Unit tests for the keyword only argument specified in PEP 3102."""

__author__ = "Jiwon Seo"
__email__ = "seojiwon at gmail dot com"

import unittest

def posonly_sum(pos_arg1, *arg, **kwarg):
    return pos_arg1 + sum(arg) + sum(kwarg.values())
def keywordonly_sum(*, k1=0, k2):
    return k1 + k2
def keywordonly_nodefaults_sum(*, k1, k2):
    return k1 + k2
def keywordonly_and_kwarg_sum(*, k1, k2, **kwarg):
    return k1 + k2 + sum(kwarg.values())
def mixedargs_sum(a, b=0, *arg, k1, k2=0):
    return a + b + k1 + k2 + sum(arg)
def mixedargs_sum2(a, b=0, *arg, k1, k2=0, **kwargs):
    return a + b + k1 + k2 + sum(arg) + sum(kwargs.values())

def sortnum(*nums, reverse=False):
    return sorted(list(nums), reverse=reverse)

def sortwords(*words, reverse=False, **kwargs):
    return sorted(list(words), reverse=reverse)

class Foo:
    def __init__(self, *, k1, k2=0):
        self.k1 = k1
        self.k2 = k2
    def set(self, p1, *, k1, k2):
        self.k1 = k1
        self.k2 = k2
    def sum(self):
        return self.k1 + self.k2

class KeywordOnlyArgTestCase(unittest.TestCase):
    def assertRaisesSyntaxError(self, codestr):
        def shouldRaiseSyntaxError(s):
            compile(s, "<test>", "single")
        self.assertRaises(SyntaxError, shouldRaiseSyntaxError, codestr)

    def testSyntaxErrorForFunctionDefinition(self):
        self.assertRaisesSyntaxError("def f(p, *):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p1, *, p1=100):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p1, *k1, k1=100):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p1, *, k1, k1=100):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p1, *, **k1):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p1, *, k1, **k1):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p1, *, None, **k1):\n  pass\n")
        self.assertRaisesSyntaxError("def f(p, *, (k1, k2), **kw):\n  pass\n")

    def testSyntaxForManyArguments(self):
        # more than 255 positional arguments, should compile ok
        fundef = "def f(%s):\n  pass\n" % ', '.join('i%d' % i for i in range(300))
        compile(fundef, "<test>", "single")
        # more than 255 keyword-only arguments, should compile ok
        fundef = "def f(*, %s):\n  pass\n" % ', '.join('i%d' % i for i in range(300))
        compile(fundef, "<test>", "single")

    def testTooManyPositionalErrorMessage(self):
        def f(a, b=None, *, c=None):
            pass
        with self.assertRaises(TypeError) as exc:
            f(1, 2, 3)
        expected = "f() takes from 1 to 2 positional arguments but 3 were given"
        self.assertEqual(str(exc.exception), expected)

    def testSyntaxErrorForFunctionCall(self):
        self.assertRaisesSyntaxError("f(p, k=1, p2)")
        self.assertRaisesSyntaxError("f(p, k1=50, *(1,2), k1=100)")

    def testRaiseErrorFuncallWithUnexpectedKeywordArgument(self):
        self.assertRaises(TypeError, keywordonly_sum, ())
        self.assertRaises(TypeError, keywordonly_nodefaults_sum, ())
        self.assertRaises(TypeError, Foo, ())
        try:
            keywordonly_sum(k2=100, non_existing_arg=200)
            self.fail("should raise TypeError")
        except TypeError:
            pass
        try:
            keywordonly_nodefaults_sum(k2=2)
            self.fail("should raise TypeError")
        except TypeError:
            pass

    def testFunctionCall(self):
        self.assertEqual(1, posonly_sum(1))
        self.assertEqual(1+2, posonly_sum(1,**{"2":2}))
        self.assertEqual(1+2+3, posonly_sum(1,*(2,3)))
        self.assertEqual(1+2+3+4, posonly_sum(1,*(2,3),**{"4":4}))

        self.assertEqual(1, keywordonly_sum(k2=1))
        self.assertEqual(1+2, keywordonly_sum(k1=1, k2=2))

        self.assertEqual(1+2, keywordonly_and_kwarg_sum(k1=1, k2=2))
        self.assertEqual(1+2+3, keywordonly_and_kwarg_sum(k1=1, k2=2, k3=3))
        self.assertEqual(1+2+3+4,
                         keywordonly_and_kwarg_sum(k1=1, k2=2,
                                                    **{"a":3,"b":4}))

        self.assertEqual(1+2, mixedargs_sum(1, k1=2))
        self.assertEqual(1+2+3, mixedargs_sum(1, 2, k1=3))
        self.assertEqual(1+2+3+4, mixedargs_sum(1, 2, k1=3, k2=4))
        self.assertEqual(1+2+3+4+5, mixedargs_sum(1, 2, 3, k1=4, k2=5))

        self.assertEqual(1+2, mixedargs_sum2(1, k1=2))
        self.assertEqual(1+2+3, mixedargs_sum2(1, 2, k1=3))
        self.assertEqual(1+2+3+4, mixedargs_sum2(1, 2, k1=3, k2=4))
        self.assertEqual(1+2+3+4+5, mixedargs_sum2(1, 2, 3, k1=4, k2=5))
        self.assertEqual(1+2+3+4+5+6,
                         mixedargs_sum2(1, 2, 3, k1=4, k2=5, k3=6))
        self.assertEqual(1+2+3+4+5+6,
                         mixedargs_sum2(1, 2, 3, k1=4, **{'k2':5, 'k3':6}))

        self.assertEqual(1, Foo(k1=1).sum())
        self.assertEqual(1+2, Foo(k1=1,k2=2).sum())

        self.assertEqual([1,2,3], sortnum(3,2,1))
        self.assertEqual([3,2,1], sortnum(1,2,3, reverse=True))

        self.assertEqual(['a','b','c'], sortwords('a','c','b'))
        self.assertEqual(['c','b','a'], sortwords('a','c','b', reverse=True))
        self.assertEqual(['c','b','a'],
                         sortwords('a','c','b', reverse=True, ignore='ignore'))

    def testKwDefaults(self):
        def foo(p1,p2=0, *, k1, k2=0):
            return p1 + p2 + k1 + k2

        self.assertEqual(2, foo.__code__.co_kwonlyargcount)
        self.assertEqual({"k2":0}, foo.__kwdefaults__)
        foo.__kwdefaults__ = {"k1":0}
        try:
            foo(1,k1=10)
            self.fail("__kwdefaults__ is not properly changed")
        except TypeError:
            pass

    def test_kwonly_methods(self):
        class Example:
            def f(self, *, k1=1, k2=2):
                return k1, k2

        self.assertEqual(Example().f(k1=1, k2=2), (1, 2))
        self.assertEqual(Example.f(Example(), k1=1, k2=2), (1, 2))
        self.assertRaises(TypeError, Example.f, k1=1, k2=2)

    def test_issue13343(self):
        # The Python compiler must scan all symbols of a function to
        # determine their scope: global, local, cell...
        # This was not done for the default values of keyword
        # arguments in a lambda definition, and the following line
        # used to fail with a SystemError.
        lambda *, k1=unittest: None

    def test_mangling(self):
        class X:
            def f(self, *, __a=42):
                return __a
        self.assertEqual(X().f(), 42)

    def test_default_evaluation_order(self):
        # See issue 16967
        a = 42
        with self.assertRaises(NameError) as err:
            def f(v=a, x=b, *, y=c, z=d):
                pass
        self.assertEqual(str(err.exception), "name 'b' is not defined")
        with self.assertRaises(NameError) as err:
            f = lambda v=a, x=b, *, y=c, z=d: None
        self.assertEqual(str(err.exception), "name 'b' is not defined")


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