Пример #1
0
def sign_convert_value(concrete_type: ConcreteType, value: Value) -> Value:
    """Converts the values to matched the signedness of the concrete type.

  Converts bits-typed Values contained within the given Value to match the
  signedness of the ConcreteType. Examples:

  invocation: sign_convert_value(s8, u8:64)
  returns: s8:64

  invocation: sign_convert_value(s3, u8:7)
  returns: s3:-1

  invocation: sign_convert_value((s8, u8), (u8:42, u8:10))
  returns: (s8:42, u8:10)

  This conversion functionality is required because the Values used in the DSLX
  may be signed while Values in IR interpretation and Verilog simulation are
  always unsigned.

  This function is idempotent.

  Args:
    concrete_type: ConcreteType to match.
    value: Input value.

  Returns:
    Sign-converted value.
  """
    if isinstance(concrete_type, concrete_type_mod.TupleType):
        assert value.is_tuple()
        assert len(value.tuple_members) == concrete_type.get_tuple_length()
        return Value.make_tuple(
            tuple(
                sign_convert_value(t, a) for t, a in zip(
                    concrete_type.get_unnamed_members(), value.tuple_members)))
    elif isinstance(concrete_type, concrete_type_mod.ArrayType):
        assert value.is_array()
        assert len(value.array_payload.elements) == concrete_type.size
        return Value.make_array(
            tuple(
                sign_convert_value(concrete_type.get_element_type(), v)
                for v in value.array_payload.elements))
    elif concrete_type_mod.is_sbits(concrete_type):
        return Value.make_sbits(value.get_bit_count(), value.get_bits_value())
    else:
        assert concrete_type_mod.is_ubits(concrete_type)
        return value
Пример #2
0
def compare_values(interpreter_value: dslx_value.Value,
                   jit_value: ir_value.Value) -> None:
    """Asserts equality between a DSLX Value and an IR Value.

  Recursively traverses the values (for arrays/tuples) and makes assertions
  about value and length properties.

  Args:
    interpreter_value: Value that resulted from DSL interpretation.
    jit_value: Value that resulted from JIT-compiled execution.

  Raises:
    JitMiscompareError: If the dslx_value and jit_value are not equivalent.
    UnsupportedJitConversionError: If there is not JIT-supported type equivalent
      for the interpreter value.
  """
    if interpreter_value.is_bits() or interpreter_value.is_enum():
        assert jit_value.is_bits(), f'Expected bits value: {jit_value!r}'

        jit_value = jit_value.get_bits()
        bit_count = interpreter_value.get_bit_count()
        if bit_count != jit_value.bit_count():
            raise JitMiscompareError(f'Inconsistent bit counts for value -- '
                                     f'interp: {bit_count}, '
                                     f'jit: {jit_value.bit_count()}')

        if interpreter_value.is_ubits():
            interpreter_bits_value = interpreter_value.get_bits_value()
            jit_bits_value = bits_to_int(jit_value, signed=False)
        else:
            interpreter_bits_value = interpreter_value.get_bits_value_signed()
            jit_bits_value = bits_to_int(jit_value, signed=True)

        if interpreter_bits_value != jit_bits_value:
            raise JitMiscompareError(
                'Inconsistent bit values in return value -- '
                'interp: {!r}, jit: {!r}'.format(interpreter_bits_value,
                                                 jit_bits_value))

    elif interpreter_value.is_array():
        assert jit_value.is_array(), f'Expected array value: {jit_value!r}'

        interpreter_values = interpreter_value.array_payload.elements
        jit_values = jit_value.get_elements()
        interp_len = len(interpreter_values)
        jit_len = len(jit_values)
        if interp_len != jit_len:
            raise JitMiscompareError(
                f'Inconsistent array lengths in return value -- '
                f'interp: {interp_len}, jit: {jit_len}')

        for interpreter_element, jit_element in zip(interpreter_values,
                                                    jit_values):
            compare_values(interpreter_element, jit_element)
    elif interpreter_value.is_tuple():
        assert jit_value.is_tuple(), 'Expected tuple value: {jit_value!r}'

        interpreter_values = interpreter_value.tuple_members
        jit_values = jit_value.get_elements()
        interp_len = len(interpreter_values)
        jit_len = len(jit_values)
        if interp_len != jit_len:
            raise JitMiscompareError(
                f'Inconsistent tuple lengths in return value -- '
                f'interp: {interp_len}, jit: {jit_len}')

        for interpreter_element, jit_element in zip(interpreter_values,
                                                    jit_values):
            compare_values(interpreter_element, jit_element)
    else:
        raise UnsupportedJitConversionError(
            'No JIT-supported type equivalent: {}'.format(interpreter_value))