Beispiel #1
0
    def test_dump_value(self):
        code = """
            storage unit ;
            parameter unit ;
            code {
                PUSH int 0 ;
                PUSH int 1 ;
                DUMP 1;
            }
        """
        self._execute_code(code)

        self.assertEqual(
            [
                IntType(1),
                IntType(0),
            ],
            self.stack.items,
        )
        self.assertEqual(
            [
                'PUSH / _ => 0',
                'PUSH / _ => 1',
                'DUMP => [1]',
            ],
            self.stdout,
        )
Beispiel #2
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 def execute(cls, stack: MichelsonStack, stdout: List[str],
             context: AbstractContext):
     a, b = stack.pop2()
     a.assert_type_equal(type(b))
     res = IntType.from_value(compare(a, b))
     stack.push(res)
     stdout.append(format_stdout(cls.prim, [a, b], [res]))  # type: ignore
     return cls(stack_items_added=1)
 def execute(cls, stack: MichelsonStack, stdout: List[str],
             context: AbstractContext):
     a = cast(Union[NatType, BLS12_381_FrType], stack.pop1())
     a.assert_type_in(NatType, BLS12_381_FrType)
     res = IntType.from_value(int(a))
     stack.push(res)
     stdout.append(f'{cls.prim} / {repr(a)} => {repr(res)}')
     return cls(stack_items_added=1)
Beispiel #4
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    def test_execute(self) -> None:
        # Arrange
        interpreter = Interpreter()
        code = "PUSH int 1; PUSH int 2; PAIR"

        # Act
        result = interpreter.execute(code)

        # Assert
        self.assertEqual(None, result.error)
        self.assertEqual(
            [
                "PUSH / _ => 1",
                "PUSH / _ => 2",
                "PAIR / 2 : 1 => (2 * 1)",
            ],
            result.stdout,
        )
        self.assertEqual([PairType((IntType(2), IntType(1)))], interpreter.stack.items)
Beispiel #5
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    def test_execute_rollback(self) -> None:
        # Arrange
        interpreter = Interpreter()
        code = "PUSH int 1; PUSH int 2; PAIR"
        bad_code = "PUSH int 1; PAIR; PAIR;"

        # Act
        interpreter.execute(code)
        result = interpreter.execute(bad_code)

        # Assert
        self.assertIsInstance(result.error, MichelsonRuntimeError)
        self.assertEqual(
            [
                "PUSH / _ => 1",
                "PAIR / 1 : (2 * 1) => (1 * (2 * 1))",
                "PAIR: got 1 items on the stack, want to pop 2",
            ],
            result.stdout,
        )
        self.assertEqual([PairType((IntType(2), IntType(1)))], interpreter.stack.items)
Beispiel #6
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 def execute(cls, stack: MichelsonStack, stdout: List[str],
             context: AbstractContext):
     a = cast(
         Union[IntType, NatType, BLS12_381_FrType, BLS12_381_G1Type,
               BLS12_381_G2Type], stack.pop1())
     res_type, = dispatch_types(type(a),
                                mapping={
                                    (IntType, ): (IntType, ),
                                    (NatType, ): (IntType, ),
                                    (BLS12_381_FrType, ):
                                    (BLS12_381_FrType, ),
                                    (BLS12_381_G1Type, ):
                                    (BLS12_381_G1Type, ),
                                    (BLS12_381_G2Type, ):
                                    (BLS12_381_G2Type, )
                                })
     if issubclass(res_type, IntType):
         res = IntType.from_value(-int(a))
     else:
         res = res_type.from_point(bls12_381.neg(a.to_point()))
     stack.push(res)
     stdout.append(format_stdout(cls.prim, [a], [res]))
     return cls()