import unittest import math import string import sys from test import support # Skip this test if the _testcapi module isn't available. _testcapi = support.import_module('_testcapi') from _testcapi import getargs_keywords, getargs_keyword_only # > How about the following counterproposal. This also changes some of # > the other format codes to be a little more regular. # > # > Code C type Range check # > # > b unsigned char 0..UCHAR_MAX # > h signed short SHRT_MIN..SHRT_MAX # > B unsigned char none ** # > H unsigned short none ** # > k * unsigned long none # > I * unsigned int 0..UINT_MAX # # # > i int INT_MIN..INT_MAX # > l long LONG_MIN..LONG_MAX # # > K * unsigned long long none # > L long long LLONG_MIN..LLONG_MAX # # > Notes: # > # > * New format codes. # > # > ** Changed from previous "range-and-a-half" to "none"; the # > range-and-a-half checking wasn't particularly useful. # # Plus a C API or two, e.g. PyLong_AsUnsignedLongMask() -> # unsigned long and PyLong_AsUnsignedLongLongMask() -> unsigned # long long (if that exists). LARGE = 0x7FFFFFFF VERY_LARGE = 0xFF0000121212121212121242 from _testcapi import UCHAR_MAX, USHRT_MAX, UINT_MAX, ULONG_MAX, INT_MAX, \ INT_MIN, LONG_MIN, LONG_MAX, PY_SSIZE_T_MIN, PY_SSIZE_T_MAX, \ SHRT_MIN, SHRT_MAX, FLT_MIN, FLT_MAX, DBL_MIN, DBL_MAX DBL_MAX_EXP = sys.float_info.max_exp INF = float('inf') NAN = float('nan') # fake, they are not defined in Python's header files LLONG_MAX = 2**63-1 LLONG_MIN = -2**63 ULLONG_MAX = 2**64-1 class Int: def __int__(self): return 99 class IntSubclass(int): def __int__(self): return 99 class BadInt: def __int__(self): return 1.0 class BadInt2: def __int__(self): return True class BadInt3(int): def __int__(self): return True class Float: def __float__(self): return 4.25 class FloatSubclass(float): pass class FloatSubclass2(float): def __float__(self): return 4.25 class BadFloat: def __float__(self): return 687 class BadFloat2: def __float__(self): return FloatSubclass(4.25) class BadFloat3(float): def __float__(self): return FloatSubclass(4.25) class Complex: def __complex__(self): return 4.25+0.5j class ComplexSubclass(complex): pass class ComplexSubclass2(complex): def __complex__(self): return 4.25+0.5j class BadComplex: def __complex__(self): return 1.25 class BadComplex2: def __complex__(self): return ComplexSubclass(4.25+0.5j) class BadComplex3(complex): def __complex__(self): return ComplexSubclass(4.25+0.5j) class TupleSubclass(tuple): pass class DictSubclass(dict): pass class Unsigned_TestCase(unittest.TestCase): def test_b(self): from _testcapi import getargs_b # b returns 'unsigned char', and does range checking (0 ... UCHAR_MAX) self.assertRaises(TypeError, getargs_b, 3.14) self.assertEqual(99, getargs_b(Int())) self.assertEqual(0, getargs_b(IntSubclass())) self.assertRaises(TypeError, getargs_b, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_b(BadInt2())) self.assertEqual(0, getargs_b(BadInt3())) self.assertRaises(OverflowError, getargs_b, -1) self.assertEqual(0, getargs_b(0)) self.assertEqual(UCHAR_MAX, getargs_b(UCHAR_MAX)) self.assertRaises(OverflowError, getargs_b, UCHAR_MAX + 1) self.assertEqual(42, getargs_b(42)) self.assertRaises(OverflowError, getargs_b, VERY_LARGE) def test_B(self): from _testcapi import getargs_B # B returns 'unsigned char', no range checking self.assertRaises(TypeError, getargs_B, 3.14) self.assertEqual(99, getargs_B(Int())) self.assertEqual(0, getargs_B(IntSubclass())) self.assertRaises(TypeError, getargs_B, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_B(BadInt2())) self.assertEqual(0, getargs_B(BadInt3())) self.assertEqual(UCHAR_MAX, getargs_B(-1)) self.assertEqual(0, getargs_B(0)) self.assertEqual(UCHAR_MAX, getargs_B(UCHAR_MAX)) self.assertEqual(0, getargs_B(UCHAR_MAX+1)) self.assertEqual(42, getargs_B(42)) self.assertEqual(UCHAR_MAX & VERY_LARGE, getargs_B(VERY_LARGE)) def test_H(self): from _testcapi import getargs_H # H returns 'unsigned short', no range checking self.assertRaises(TypeError, getargs_H, 3.14) self.assertEqual(99, getargs_H(Int())) self.assertEqual(0, getargs_H(IntSubclass())) self.assertRaises(TypeError, getargs_H, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_H(BadInt2())) self.assertEqual(0, getargs_H(BadInt3())) self.assertEqual(USHRT_MAX, getargs_H(-1)) self.assertEqual(0, getargs_H(0)) self.assertEqual(USHRT_MAX, getargs_H(USHRT_MAX)) self.assertEqual(0, getargs_H(USHRT_MAX+1)) self.assertEqual(42, getargs_H(42)) self.assertEqual(VERY_LARGE & USHRT_MAX, getargs_H(VERY_LARGE)) def test_I(self): from _testcapi import getargs_I # I returns 'unsigned int', no range checking self.assertRaises(TypeError, getargs_I, 3.14) self.assertEqual(99, getargs_I(Int())) self.assertEqual(0, getargs_I(IntSubclass())) self.assertRaises(TypeError, getargs_I, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_I(BadInt2())) self.assertEqual(0, getargs_I(BadInt3())) self.assertEqual(UINT_MAX, getargs_I(-1)) self.assertEqual(0, getargs_I(0)) self.assertEqual(UINT_MAX, getargs_I(UINT_MAX)) self.assertEqual(0, getargs_I(UINT_MAX+1)) self.assertEqual(42, getargs_I(42)) self.assertEqual(VERY_LARGE & UINT_MAX, getargs_I(VERY_LARGE)) def test_k(self): from _testcapi import getargs_k # k returns 'unsigned long', no range checking # it does not accept float, or instances with __int__ self.assertRaises(TypeError, getargs_k, 3.14) self.assertRaises(TypeError, getargs_k, Int()) self.assertEqual(0, getargs_k(IntSubclass())) self.assertRaises(TypeError, getargs_k, BadInt()) self.assertRaises(TypeError, getargs_k, BadInt2()) self.assertEqual(0, getargs_k(BadInt3())) self.assertEqual(ULONG_MAX, getargs_k(-1)) self.assertEqual(0, getargs_k(0)) self.assertEqual(ULONG_MAX, getargs_k(ULONG_MAX)) self.assertEqual(0, getargs_k(ULONG_MAX+1)) self.assertEqual(42, getargs_k(42)) self.assertEqual(VERY_LARGE & ULONG_MAX, getargs_k(VERY_LARGE)) class Signed_TestCase(unittest.TestCase): def test_h(self): from _testcapi import getargs_h # h returns 'short', and does range checking (SHRT_MIN ... SHRT_MAX) self.assertRaises(TypeError, getargs_h, 3.14) self.assertEqual(99, getargs_h(Int())) self.assertEqual(0, getargs_h(IntSubclass())) self.assertRaises(TypeError, getargs_h, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_h(BadInt2())) self.assertEqual(0, getargs_h(BadInt3())) self.assertRaises(OverflowError, getargs_h, SHRT_MIN-1) self.assertEqual(SHRT_MIN, getargs_h(SHRT_MIN)) self.assertEqual(SHRT_MAX, getargs_h(SHRT_MAX)) self.assertRaises(OverflowError, getargs_h, SHRT_MAX+1) self.assertEqual(42, getargs_h(42)) self.assertRaises(OverflowError, getargs_h, VERY_LARGE) def test_i(self): from _testcapi import getargs_i # i returns 'int', and does range checking (INT_MIN ... INT_MAX) self.assertRaises(TypeError, getargs_i, 3.14) self.assertEqual(99, getargs_i(Int())) self.assertEqual(0, getargs_i(IntSubclass())) self.assertRaises(TypeError, getargs_i, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_i(BadInt2())) self.assertEqual(0, getargs_i(BadInt3())) self.assertRaises(OverflowError, getargs_i, INT_MIN-1) self.assertEqual(INT_MIN, getargs_i(INT_MIN)) self.assertEqual(INT_MAX, getargs_i(INT_MAX)) self.assertRaises(OverflowError, getargs_i, INT_MAX+1) self.assertEqual(42, getargs_i(42)) self.assertRaises(OverflowError, getargs_i, VERY_LARGE) def test_l(self): from _testcapi import getargs_l # l returns 'long', and does range checking (LONG_MIN ... LONG_MAX) self.assertRaises(TypeError, getargs_l, 3.14) self.assertEqual(99, getargs_l(Int())) self.assertEqual(0, getargs_l(IntSubclass())) self.assertRaises(TypeError, getargs_l, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_l(BadInt2())) self.assertEqual(0, getargs_l(BadInt3())) self.assertRaises(OverflowError, getargs_l, LONG_MIN-1) self.assertEqual(LONG_MIN, getargs_l(LONG_MIN)) self.assertEqual(LONG_MAX, getargs_l(LONG_MAX)) self.assertRaises(OverflowError, getargs_l, LONG_MAX+1) self.assertEqual(42, getargs_l(42)) self.assertRaises(OverflowError, getargs_l, VERY_LARGE) def test_n(self): from _testcapi import getargs_n # n returns 'Py_ssize_t', and does range checking # (PY_SSIZE_T_MIN ... PY_SSIZE_T_MAX) self.assertRaises(TypeError, getargs_n, 3.14) self.assertRaises(TypeError, getargs_n, Int()) self.assertEqual(0, getargs_n(IntSubclass())) self.assertRaises(TypeError, getargs_n, BadInt()) self.assertRaises(TypeError, getargs_n, BadInt2()) self.assertEqual(0, getargs_n(BadInt3())) self.assertRaises(OverflowError, getargs_n, PY_SSIZE_T_MIN-1) self.assertEqual(PY_SSIZE_T_MIN, getargs_n(PY_SSIZE_T_MIN)) self.assertEqual(PY_SSIZE_T_MAX, getargs_n(PY_SSIZE_T_MAX)) self.assertRaises(OverflowError, getargs_n, PY_SSIZE_T_MAX+1) self.assertEqual(42, getargs_n(42)) self.assertRaises(OverflowError, getargs_n, VERY_LARGE) class LongLong_TestCase(unittest.TestCase): def test_L(self): from _testcapi import getargs_L # L returns 'long long', and does range checking (LLONG_MIN # ... LLONG_MAX) self.assertRaises(TypeError, getargs_L, 3.14) self.assertRaises(TypeError, getargs_L, "Hello") self.assertEqual(99, getargs_L(Int())) self.assertEqual(0, getargs_L(IntSubclass())) self.assertRaises(TypeError, getargs_L, BadInt()) with self.assertWarns(DeprecationWarning): self.assertEqual(1, getargs_L(BadInt2())) self.assertEqual(0, getargs_L(BadInt3())) self.assertRaises(OverflowError, getargs_L, LLONG_MIN-1) self.assertEqual(LLONG_MIN, getargs_L(LLONG_MIN)) self.assertEqual(LLONG_MAX, getargs_L(LLONG_MAX)) self.assertRaises(OverflowError, getargs_L, LLONG_MAX+1) self.assertEqual(42, getargs_L(42)) self.assertRaises(OverflowError, getargs_L, VERY_LARGE) def test_K(self): from _testcapi import getargs_K # K return 'unsigned long long', no range checking self.assertRaises(TypeError, getargs_K, 3.14) self.assertRaises(TypeError, getargs_K, Int()) self.assertEqual(0, getargs_K(IntSubclass())) self.assertRaises(TypeError, getargs_K, BadInt()) self.assertRaises(TypeError, getargs_K, BadInt2()) self.assertEqual(0, getargs_K(BadInt3())) self.assertEqual(ULLONG_MAX, getargs_K(ULLONG_MAX)) self.assertEqual(0, getargs_K(0)) self.assertEqual(0, getargs_K(ULLONG_MAX+1)) self.assertEqual(42, getargs_K(42)) self.assertEqual(VERY_LARGE & ULLONG_MAX, getargs_K(VERY_LARGE)) class Float_TestCase(unittest.TestCase): def assertEqualWithSign(self, actual, expected): self.assertEqual(actual, expected) self.assertEqual(math.copysign(1, actual), math.copysign(1, expected)) def test_f(self): from _testcapi import getargs_f self.assertEqual(getargs_f(4.25), 4.25) self.assertEqual(getargs_f(4), 4.0) self.assertRaises(TypeError, getargs_f, 4.25+0j) self.assertEqual(getargs_f(Float()), 4.25) self.assertEqual(getargs_f(FloatSubclass(7.5)), 7.5) self.assertEqual(getargs_f(FloatSubclass2(7.5)), 7.5) self.assertRaises(TypeError, getargs_f, BadFloat()) with self.assertWarns(DeprecationWarning): self.assertEqual(getargs_f(BadFloat2()), 4.25) self.assertEqual(getargs_f(BadFloat3(7.5)), 7.5) for x in (FLT_MIN, -FLT_MIN, FLT_MAX, -FLT_MAX, INF, -INF): self.assertEqual(getargs_f(x), x) if FLT_MAX < DBL_MAX: self.assertEqual(getargs_f(DBL_MAX), INF) self.assertEqual(getargs_f(-DBL_MAX), -INF) if FLT_MIN > DBL_MIN: self.assertEqualWithSign(getargs_f(DBL_MIN), 0.0) self.assertEqualWithSign(getargs_f(-DBL_MIN), -0.0) self.assertEqualWithSign(getargs_f(0.0), 0.0) self.assertEqualWithSign(getargs_f(-0.0), -0.0) r = getargs_f(NAN) self.assertNotEqual(r, r) @support.requires_IEEE_754 def test_f_rounding(self): from _testcapi import getargs_f self.assertEqual(getargs_f(3.40282356e38), FLT_MAX) self.assertEqual(getargs_f(-3.40282356e38), -FLT_MAX) def test_d(self): from _testcapi import getargs_d self.assertEqual(getargs_d(4.25), 4.25) self.assertEqual(getargs_d(4), 4.0) self.assertRaises(TypeError, getargs_d, 4.25+0j) self.assertEqual(getargs_d(Float()), 4.25) self.assertEqual(getargs_d(FloatSubclass(7.5)), 7.5) self.assertEqual(getargs_d(FloatSubclass2(7.5)), 7.5) self.assertRaises(TypeError, getargs_d, BadFloat()) with self.assertWarns(DeprecationWarning): self.assertEqual(getargs_d(BadFloat2()), 4.25) self.assertEqual(getargs_d(BadFloat3(7.5)), 7.5) for x in (DBL_MIN, -DBL_MIN, DBL_MAX, -DBL_MAX, INF, -INF): self.assertEqual(getargs_d(x), x) self.assertRaises(OverflowError, getargs_d, 1< 1 self.assertEqual(getargs_c(b'a'), 97) self.assertEqual(getargs_c(bytearray(b'a')), 97) self.assertRaises(TypeError, getargs_c, memoryview(b'a')) self.assertRaises(TypeError, getargs_c, 's') self.assertRaises(TypeError, getargs_c, 97) self.assertRaises(TypeError, getargs_c, None) def test_y(self): from _testcapi import getargs_y self.assertRaises(TypeError, getargs_y, 'abc\xe9') self.assertEqual(getargs_y(b'bytes'), b'bytes') self.assertRaises(ValueError, getargs_y, b'nul:\0') self.assertRaises(TypeError, getargs_y, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_y, memoryview(b'memoryview')) self.assertRaises(TypeError, getargs_y, None) def test_y_star(self): from _testcapi import getargs_y_star self.assertRaises(TypeError, getargs_y_star, 'abc\xe9') self.assertEqual(getargs_y_star(b'bytes'), b'bytes') self.assertEqual(getargs_y_star(b'nul:\0'), b'nul:\0') self.assertEqual(getargs_y_star(bytearray(b'bytearray')), b'bytearray') self.assertEqual(getargs_y_star(memoryview(b'memoryview')), b'memoryview') self.assertRaises(TypeError, getargs_y_star, None) def test_y_hash(self): from _testcapi import getargs_y_hash self.assertRaises(TypeError, getargs_y_hash, 'abc\xe9') self.assertEqual(getargs_y_hash(b'bytes'), b'bytes') self.assertEqual(getargs_y_hash(b'nul:\0'), b'nul:\0') self.assertRaises(TypeError, getargs_y_hash, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_y_hash, memoryview(b'memoryview')) self.assertRaises(TypeError, getargs_y_hash, None) def test_w_star(self): # getargs_w_star() modifies first and last byte from _testcapi import getargs_w_star self.assertRaises(TypeError, getargs_w_star, 'abc\xe9') self.assertRaises(TypeError, getargs_w_star, b'bytes') self.assertRaises(TypeError, getargs_w_star, b'nul:\0') self.assertRaises(TypeError, getargs_w_star, memoryview(b'bytes')) buf = bytearray(b'bytearray') self.assertEqual(getargs_w_star(buf), b'[ytearra]') self.assertEqual(buf, bytearray(b'[ytearra]')) buf = bytearray(b'memoryview') self.assertEqual(getargs_w_star(memoryview(buf)), b'[emoryvie]') self.assertEqual(buf, bytearray(b'[emoryvie]')) self.assertRaises(TypeError, getargs_w_star, None) class String_TestCase(unittest.TestCase): def test_C(self): from _testcapi import getargs_C self.assertRaises(TypeError, getargs_C, 'abc') # len > 1 self.assertEqual(getargs_C('a'), 97) self.assertEqual(getargs_C('\u20ac'), 0x20ac) self.assertEqual(getargs_C('\U0001f40d'), 0x1f40d) self.assertRaises(TypeError, getargs_C, b'a') self.assertRaises(TypeError, getargs_C, bytearray(b'a')) self.assertRaises(TypeError, getargs_C, memoryview(b'a')) self.assertRaises(TypeError, getargs_C, 97) self.assertRaises(TypeError, getargs_C, None) def test_s(self): from _testcapi import getargs_s self.assertEqual(getargs_s('abc\xe9'), b'abc\xc3\xa9') self.assertRaises(ValueError, getargs_s, 'nul:\0') self.assertRaises(TypeError, getargs_s, b'bytes') self.assertRaises(TypeError, getargs_s, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_s, memoryview(b'memoryview')) self.assertRaises(TypeError, getargs_s, None) def test_s_star(self): from _testcapi import getargs_s_star self.assertEqual(getargs_s_star('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_s_star('nul:\0'), b'nul:\0') self.assertEqual(getargs_s_star(b'bytes'), b'bytes') self.assertEqual(getargs_s_star(bytearray(b'bytearray')), b'bytearray') self.assertEqual(getargs_s_star(memoryview(b'memoryview')), b'memoryview') self.assertRaises(TypeError, getargs_s_star, None) def test_s_hash(self): from _testcapi import getargs_s_hash self.assertEqual(getargs_s_hash('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_s_hash('nul:\0'), b'nul:\0') self.assertEqual(getargs_s_hash(b'bytes'), b'bytes') self.assertRaises(TypeError, getargs_s_hash, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_s_hash, memoryview(b'memoryview')) self.assertRaises(TypeError, getargs_s_hash, None) def test_z(self): from _testcapi import getargs_z self.assertEqual(getargs_z('abc\xe9'), b'abc\xc3\xa9') self.assertRaises(ValueError, getargs_z, 'nul:\0') self.assertRaises(TypeError, getargs_z, b'bytes') self.assertRaises(TypeError, getargs_z, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_z, memoryview(b'memoryview')) self.assertIsNone(getargs_z(None)) def test_z_star(self): from _testcapi import getargs_z_star self.assertEqual(getargs_z_star('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_z_star('nul:\0'), b'nul:\0') self.assertEqual(getargs_z_star(b'bytes'), b'bytes') self.assertEqual(getargs_z_star(bytearray(b'bytearray')), b'bytearray') self.assertEqual(getargs_z_star(memoryview(b'memoryview')), b'memoryview') self.assertIsNone(getargs_z_star(None)) def test_z_hash(self): from _testcapi import getargs_z_hash self.assertEqual(getargs_z_hash('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_z_hash('nul:\0'), b'nul:\0') self.assertEqual(getargs_z_hash(b'bytes'), b'bytes') self.assertRaises(TypeError, getargs_z_hash, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_z_hash, memoryview(b'memoryview')) self.assertIsNone(getargs_z_hash(None)) def test_es(self): from _testcapi import getargs_es self.assertEqual(getargs_es('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_es('abc\xe9', 'latin1'), b'abc\xe9') self.assertRaises(UnicodeEncodeError, getargs_es, 'abc\xe9', 'ascii') self.assertRaises(LookupError, getargs_es, 'abc\xe9', 'spam') self.assertRaises(TypeError, getargs_es, b'bytes', 'latin1') self.assertRaises(TypeError, getargs_es, bytearray(b'bytearray'), 'latin1') self.assertRaises(TypeError, getargs_es, memoryview(b'memoryview'), 'latin1') self.assertRaises(TypeError, getargs_es, None, 'latin1') self.assertRaises(TypeError, getargs_es, 'nul:\0', 'latin1') def test_et(self): from _testcapi import getargs_et self.assertEqual(getargs_et('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_et('abc\xe9', 'latin1'), b'abc\xe9') self.assertRaises(UnicodeEncodeError, getargs_et, 'abc\xe9', 'ascii') self.assertRaises(LookupError, getargs_et, 'abc\xe9', 'spam') self.assertEqual(getargs_et(b'bytes', 'latin1'), b'bytes') self.assertEqual(getargs_et(bytearray(b'bytearray'), 'latin1'), b'bytearray') self.assertRaises(TypeError, getargs_et, memoryview(b'memoryview'), 'latin1') self.assertRaises(TypeError, getargs_et, None, 'latin1') self.assertRaises(TypeError, getargs_et, 'nul:\0', 'latin1') self.assertRaises(TypeError, getargs_et, b'nul:\0', 'latin1') self.assertRaises(TypeError, getargs_et, bytearray(b'nul:\0'), 'latin1') def test_es_hash(self): from _testcapi import getargs_es_hash self.assertEqual(getargs_es_hash('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_es_hash('abc\xe9', 'latin1'), b'abc\xe9') self.assertRaises(UnicodeEncodeError, getargs_es_hash, 'abc\xe9', 'ascii') self.assertRaises(LookupError, getargs_es_hash, 'abc\xe9', 'spam') self.assertRaises(TypeError, getargs_es_hash, b'bytes', 'latin1') self.assertRaises(TypeError, getargs_es_hash, bytearray(b'bytearray'), 'latin1') self.assertRaises(TypeError, getargs_es_hash, memoryview(b'memoryview'), 'latin1') self.assertRaises(TypeError, getargs_es_hash, None, 'latin1') self.assertEqual(getargs_es_hash('nul:\0', 'latin1'), b'nul:\0') buf = bytearray(b'x'*8) self.assertEqual(getargs_es_hash('abc\xe9', 'latin1', buf), b'abc\xe9') self.assertEqual(buf, bytearray(b'abc\xe9\x00xxx')) buf = bytearray(b'x'*5) self.assertEqual(getargs_es_hash('abc\xe9', 'latin1', buf), b'abc\xe9') self.assertEqual(buf, bytearray(b'abc\xe9\x00')) buf = bytearray(b'x'*4) self.assertRaises(ValueError, getargs_es_hash, 'abc\xe9', 'latin1', buf) self.assertEqual(buf, bytearray(b'x'*4)) buf = bytearray() self.assertRaises(ValueError, getargs_es_hash, 'abc\xe9', 'latin1', buf) def test_et_hash(self): from _testcapi import getargs_et_hash self.assertEqual(getargs_et_hash('abc\xe9'), b'abc\xc3\xa9') self.assertEqual(getargs_et_hash('abc\xe9', 'latin1'), b'abc\xe9') self.assertRaises(UnicodeEncodeError, getargs_et_hash, 'abc\xe9', 'ascii') self.assertRaises(LookupError, getargs_et_hash, 'abc\xe9', 'spam') self.assertEqual(getargs_et_hash(b'bytes', 'latin1'), b'bytes') self.assertEqual(getargs_et_hash(bytearray(b'bytearray'), 'latin1'), b'bytearray') self.assertRaises(TypeError, getargs_et_hash, memoryview(b'memoryview'), 'latin1') self.assertRaises(TypeError, getargs_et_hash, None, 'latin1') self.assertEqual(getargs_et_hash('nul:\0', 'latin1'), b'nul:\0') self.assertEqual(getargs_et_hash(b'nul:\0', 'latin1'), b'nul:\0') self.assertEqual(getargs_et_hash(bytearray(b'nul:\0'), 'latin1'), b'nul:\0') buf = bytearray(b'x'*8) self.assertEqual(getargs_et_hash('abc\xe9', 'latin1', buf), b'abc\xe9') self.assertEqual(buf, bytearray(b'abc\xe9\x00xxx')) buf = bytearray(b'x'*5) self.assertEqual(getargs_et_hash('abc\xe9', 'latin1', buf), b'abc\xe9') self.assertEqual(buf, bytearray(b'abc\xe9\x00')) buf = bytearray(b'x'*4) self.assertRaises(ValueError, getargs_et_hash, 'abc\xe9', 'latin1', buf) self.assertEqual(buf, bytearray(b'x'*4)) buf = bytearray() self.assertRaises(ValueError, getargs_et_hash, 'abc\xe9', 'latin1', buf) def test_u(self): from _testcapi import getargs_u self.assertEqual(getargs_u('abc\xe9'), 'abc\xe9') self.assertRaises(ValueError, getargs_u, 'nul:\0') self.assertRaises(TypeError, getargs_u, b'bytes') self.assertRaises(TypeError, getargs_u, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_u, memoryview(b'memoryview')) self.assertRaises(TypeError, getargs_u, None) def test_u_hash(self): from _testcapi import getargs_u_hash self.assertEqual(getargs_u_hash('abc\xe9'), 'abc\xe9') self.assertEqual(getargs_u_hash('nul:\0'), 'nul:\0') self.assertRaises(TypeError, getargs_u_hash, b'bytes') self.assertRaises(TypeError, getargs_u_hash, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_u_hash, memoryview(b'memoryview')) self.assertRaises(TypeError, getargs_u_hash, None) def test_Z(self): from _testcapi import getargs_Z self.assertEqual(getargs_Z('abc\xe9'), 'abc\xe9') self.assertRaises(ValueError, getargs_Z, 'nul:\0') self.assertRaises(TypeError, getargs_Z, b'bytes') self.assertRaises(TypeError, getargs_Z, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_Z, memoryview(b'memoryview')) self.assertIsNone(getargs_Z(None)) def test_Z_hash(self): from _testcapi import getargs_Z_hash self.assertEqual(getargs_Z_hash('abc\xe9'), 'abc\xe9') self.assertEqual(getargs_Z_hash('nul:\0'), 'nul:\0') self.assertRaises(TypeError, getargs_Z_hash, b'bytes') self.assertRaises(TypeError, getargs_Z_hash, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_Z_hash, memoryview(b'memoryview')) self.assertIsNone(getargs_Z_hash(None)) class Object_TestCase(unittest.TestCase): def test_S(self): from _testcapi import getargs_S obj = b'bytes' self.assertIs(getargs_S(obj), obj) self.assertRaises(TypeError, getargs_S, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_S, 'str') self.assertRaises(TypeError, getargs_S, None) self.assertRaises(TypeError, getargs_S, memoryview(obj)) def test_Y(self): from _testcapi import getargs_Y obj = bytearray(b'bytearray') self.assertIs(getargs_Y(obj), obj) self.assertRaises(TypeError, getargs_Y, b'bytes') self.assertRaises(TypeError, getargs_Y, 'str') self.assertRaises(TypeError, getargs_Y, None) self.assertRaises(TypeError, getargs_Y, memoryview(obj)) def test_U(self): from _testcapi import getargs_U obj = 'str' self.assertIs(getargs_U(obj), obj) self.assertRaises(TypeError, getargs_U, b'bytes') self.assertRaises(TypeError, getargs_U, bytearray(b'bytearray')) self.assertRaises(TypeError, getargs_U, None) # Bug #6012 class Test6012(unittest.TestCase): def test(self): self.assertEqual(_testcapi.argparsing("Hello", "World"), 1) class SkipitemTest(unittest.TestCase): def test_skipitem(self): """ If this test failed, you probably added a new "format unit" in Python/getargs.c, but neglected to update our poor friend skipitem() in the same file. (If so, shame on you!) With a few exceptions**, this function brute-force tests all printable ASCII*** characters (32 to 126 inclusive) as format units, checking to see that PyArg_ParseTupleAndKeywords() return consistent errors both when the unit is attempted to be used and when it is skipped. If the format unit doesn't exist, we'll get one of two specific error messages (one for used, one for skipped); if it does exist we *won't* get that error--we'll get either no error or some other error. If we get the specific "does not exist" error for one test and not for the other, there's a mismatch, and the test fails. ** Some format units have special funny semantics and it would be difficult to accommodate them here. Since these are all well-established and properly skipped in skipitem() we can get away with not testing them--this test is really intended to catch *new* format units. *** Python C source files must be ASCII. Therefore it's impossible to have non-ASCII format units. """ empty_tuple = () tuple_1 = (0,) dict_b = {'b':1} keywords = ["a", "b"] for i in range(32, 127): c = chr(i) # skip parentheses, the error reporting is inconsistent about them # skip 'e', it's always a two-character code # skip '|' and '$', they don't represent arguments anyway if c in '()e|$': continue # test the format unit when not skipped format = c + "i" try: _testcapi.parse_tuple_and_keywords(tuple_1, dict_b, format, keywords) when_not_skipped = False except SystemError as e: s = "argument 1 (impossible)" when_not_skipped = (str(e) == s) except TypeError: when_not_skipped = False # test the format unit when skipped optional_format = "|" + format try: _testcapi.parse_tuple_and_keywords(empty_tuple, dict_b, optional_format, keywords) when_skipped = False except SystemError as e: s = "impossible: '{}'".format(format) when_skipped = (str(e) == s) message = ("test_skipitem_parity: " "detected mismatch between convertsimple and skipitem " "for format unit '{}' ({}), not skipped {}, skipped {}".format( c, i, when_skipped, when_not_skipped)) self.assertIs(when_skipped, when_not_skipped, message) def test_skipitem_with_suffix(self): parse = _testcapi.parse_tuple_and_keywords empty_tuple = () tuple_1 = (0,) dict_b = {'b':1} keywords = ["a", "b"] supported = ('s#', 's*', 'z#', 'z*', 'u#', 'Z#', 'y#', 'y*', 'w#', 'w*') for c in string.ascii_letters: for c2 in '#*': f = c + c2 with self.subTest(format=f): optional_format = "|" + f + "i" if f in supported: parse(empty_tuple, dict_b, optional_format, keywords) else: with self.assertRaisesRegex(SystemError, 'impossible'): parse(empty_tuple, dict_b, optional_format, keywords) for c in map(chr, range(32, 128)): f = 'e' + c optional_format = "|" + f + "i" with self.subTest(format=f): if c in 'st': parse(empty_tuple, dict_b, optional_format, keywords) else: with self.assertRaisesRegex(SystemError, 'impossible'): parse(empty_tuple, dict_b, optional_format, keywords) class ParseTupleAndKeywords_Test(unittest.TestCase): def test_parse_tuple_and_keywords(self): # Test handling errors in the parse_tuple_and_keywords helper itself self.assertRaises(TypeError, _testcapi.parse_tuple_and_keywords, (), {}, 42, []) self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords, (), {}, '', 42) self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords, (), {}, '', [''] * 42) self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords, (), {}, '', [42]) def test_bad_use(self): # Test handling invalid format and keywords in # PyArg_ParseTupleAndKeywords() self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1,), {}, '||O', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1, 2), {}, '|O|O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1}, '$$O', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1, 'b': 2}, '$O$O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1}, '$|O', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1, 'b': 2}, '$O|O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1,), {}, '|O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1,), {}, '|OO', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {}, '|$O', ['']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {}, '|OO', ['a', '']) def test_positional_only(self): parse = _testcapi.parse_tuple_and_keywords parse((1, 2, 3), {}, 'OOO', ['', '', 'a']) parse((1, 2), {'a': 3}, 'OOO', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'function takes at least 2 positional arguments \(1 given\)'): parse((1,), {'a': 3}, 'OOO', ['', '', 'a']) parse((1,), {}, 'O|OO', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'function takes at least 1 positional argument \(0 given\)'): parse((), {}, 'O|OO', ['', '', 'a']) parse((1, 2), {'a': 3}, 'OO$O', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'function takes exactly 2 positional arguments \(1 given\)'): parse((1,), {'a': 3}, 'OO$O', ['', '', 'a']) parse((1,), {}, 'O|O$O', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'function takes at least 1 positional argument \(0 given\)'): parse((), {}, 'O|O$O', ['', '', 'a']) with self.assertRaisesRegex(SystemError, r'Empty parameter name after \$'): parse((1,), {}, 'O|$OO', ['', '', 'a']) with self.assertRaisesRegex(SystemError, 'Empty keyword'): parse((1,), {}, 'O|OO', ['', 'a', '']) class Test_testcapi(unittest.TestCase): locals().update((name, getattr(_testcapi, name)) for name in dir(_testcapi) if name.startswith('test_') and name.endswith('_code')) if __name__ == "__main__": unittest.main()