import dis from test.support.import_helper import import_module import unittest import opcode _opcode = import_module("_opcode") from _opcode import stack_effect class OpcodeTests(unittest.TestCase): def test_stack_effect(self): self.assertEqual(stack_effect(dis.opmap['POP_TOP']), -1) self.assertEqual(stack_effect(dis.opmap['BUILD_SLICE'], 0), -1) self.assertEqual(stack_effect(dis.opmap['BUILD_SLICE'], 1), -1) self.assertEqual(stack_effect(dis.opmap['BUILD_SLICE'], 3), -2) self.assertRaises(ValueError, stack_effect, 30000) self.assertRaises(ValueError, stack_effect, dis.opmap['BUILD_SLICE']) self.assertRaises(ValueError, stack_effect, dis.opmap['POP_TOP'], 0) # All defined opcodes for name, code in filter(lambda item: item[0] not in dis.deoptmap, dis.opmap.items()): with self.subTest(opname=name): if code < dis.HAVE_ARGUMENT: stack_effect(code) self.assertRaises(ValueError, stack_effect, code, 0) else: stack_effect(code, 0) self.assertRaises(ValueError, stack_effect, code) # All not defined opcodes for code in set(range(256)) - set(dis.opmap.values()): with self.subTest(opcode=code): self.assertRaises(ValueError, stack_effect, code) self.assertRaises(ValueError, stack_effect, code, 0) def test_stack_effect_jump(self): JUMP_IF_TRUE_OR_POP = dis.opmap['JUMP_IF_TRUE_OR_POP'] self.assertEqual(stack_effect(JUMP_IF_TRUE_OR_POP, 0), 0) self.assertEqual(stack_effect(JUMP_IF_TRUE_OR_POP, 0, jump=True), 0) self.assertEqual(stack_effect(JUMP_IF_TRUE_OR_POP, 0, jump=False), -1) FOR_ITER = dis.opmap['FOR_ITER'] self.assertEqual(stack_effect(FOR_ITER, 0), 1) self.assertEqual(stack_effect(FOR_ITER, 0, jump=True), -1) self.assertEqual(stack_effect(FOR_ITER, 0, jump=False), 1) JUMP_FORWARD = dis.opmap['JUMP_FORWARD'] self.assertEqual(stack_effect(JUMP_FORWARD, 0), 0) self.assertEqual(stack_effect(JUMP_FORWARD, 0, jump=True), 0) self.assertEqual(stack_effect(JUMP_FORWARD, 0, jump=False), 0) # All defined opcodes has_jump = dis.hasjabs + dis.hasjrel for name, code in filter(lambda item: item[0] not in dis.deoptmap, dis.opmap.items()): with self.subTest(opname=name): if code < dis.HAVE_ARGUMENT: common = stack_effect(code) jump = stack_effect(code, jump=True) nojump = stack_effect(code, jump=False) else: common = stack_effect(code, 0) jump = stack_effect(code, 0, jump=True) nojump = stack_effect(code, 0, jump=False) if code in has_jump: self.assertEqual(common, max(jump, nojump)) else: self.assertEqual(jump, common) self.assertEqual(nojump, common) class SpecializationStatsTests(unittest.TestCase): def test_specialization_stats(self): stat_names = opcode._specialization_stats specialized_opcodes = [ op[:-len("_ADAPTIVE")].lower() for op in opcode._specialized_instructions if op.endswith("_ADAPTIVE")] self.assertIn('load_attr', specialized_opcodes) self.assertIn('binary_subscr', specialized_opcodes) stats = _opcode.get_specialization_stats() if stats is not None: self.assertIsInstance(stats, dict) self.assertCountEqual(stats.keys(), specialized_opcodes) self.assertCountEqual( stats['load_attr'].keys(), stat_names + ['failure_kinds']) for sn in stat_names: self.assertIsInstance(stats['load_attr'][sn], int) self.assertIsInstance( stats['load_attr']['failure_kinds'], tuple) for v in stats['load_attr']['failure_kinds']: self.assertIsInstance(v, int) if __name__ == "__main__": unittest.main()