예제 #1
0
def descr__new__(space, w_complextype, w_real=0.0, w_imag=None):
    from pypy.objspace.std.complexobject import W_ComplexObject

    # if w_real is already a complex number and there is no second
    # argument, return it.  Note that we cannot return w_real if
    # it is an instance of a *subclass* of complex, or if w_complextype
    # is itself a subclass of complex.
    noarg2 = space.is_w(w_imag, space.w_None)
    if (noarg2 and space.is_w(w_complextype, space.w_complex)
            and space.is_w(space.type(w_real), space.w_complex)):
        return w_real

    if space.isinstance_w(w_real, space.w_str) or \
            space.isinstance_w(w_real, space.w_unicode):
        # a string argument
        if not noarg2:
            raise OperationError(
                space.w_TypeError,
                space.wrap("complex() can't take second arg"
                           " if first is a string"))
        try:
            realstr, imagstr = _split_complex(space.str_w(w_real))
        except ValueError:
            raise OperationError(space.w_ValueError, space.wrap(ERR_MALFORMED))
        try:
            realval = string_to_float(realstr)
            imagval = string_to_float(imagstr)
        except ParseStringError:
            raise OperationError(space.w_ValueError, space.wrap(ERR_MALFORMED))

    else:
        # non-string arguments
        realval, imagval = unpackcomplex(space, w_real)

        # now take w_imag into account
        if not noarg2:
            # complex(x, y) == x+y*j, even if 'y' is already a complex.
            realval2, imagval2 = unpackcomplex(space, w_imag)

            # try to preserve the signs of zeroes of realval and realval2
            if imagval2 != 0.0:
                realval -= imagval2

            if imagval != 0.0:
                imagval += realval2
            else:
                imagval = realval2
    # done
    w_obj = space.allocate_instance(W_ComplexObject, w_complextype)
    W_ComplexObject.__init__(w_obj, realval, imagval)
    return w_obj
예제 #2
0
def descr__new__(space, w_complextype, w_real=0.0, w_imag=None):
    from pypy.objspace.std.complexobject import W_ComplexObject

    # if w_real is already a complex number and there is no second
    # argument, return it.  Note that we cannot return w_real if
    # it is an instance of a *subclass* of complex, or if w_complextype
    # is itself a subclass of complex.
    noarg2 = space.is_w(w_imag, space.w_None)
    if (noarg2 and space.is_w(w_complextype, space.w_complex)
               and space.is_w(space.type(w_real), space.w_complex)):
        return w_real

    if space.isinstance_w(w_real, space.w_str) or \
            space.isinstance_w(w_real, space.w_unicode):
        # a string argument
        if not noarg2:
            raise OperationError(space.w_TypeError,
                                 space.wrap("complex() can't take second arg"
                                            " if first is a string"))
        try:
            realstr, imagstr = _split_complex(space.str_w(w_real))
        except ValueError:
            raise OperationError(space.w_ValueError, space.wrap(ERR_MALFORMED))
        try:
            realval = string_to_float(realstr)
            imagval = string_to_float(imagstr)
        except ParseStringError:
            raise OperationError(space.w_ValueError, space.wrap(ERR_MALFORMED))

    else:
        # non-string arguments
        realval, imagval = unpackcomplex(space, w_real)

        # now take w_imag into account
        if not noarg2:
            # complex(x, y) == x+y*j, even if 'y' is already a complex.
            realval2, imagval2 = unpackcomplex(space, w_imag)

            # try to preserve the signs of zeroes of realval and realval2
            if imagval2 != 0.0:
                realval -= imagval2

            if imagval != 0.0:
                imagval += realval2
            else:
                imagval = realval2
    # done
    w_obj = space.allocate_instance(W_ComplexObject, w_complextype)
    W_ComplexObject.__init__(w_obj, realval, imagval)
    return w_obj
예제 #3
0
파일: floattype.py 프로젝트: griels/pypy-sc
def descr__new__(space, w_floattype, w_x=0.0):
    from pypy.objspace.std.floatobject import W_FloatObject
    w_value = w_x  # 'x' is the keyword argument name in CPython
    if space.is_true(space.isinstance(w_value, space.w_str)):
        strvalue = space.str_w(w_value)
        try:
            if USE_NEW_S2F:
                value = interp_string_to_float(space, strvalue)
            else:
                value = string_to_float(strvalue)
        except ParseStringError, e:
            raise OperationError(space.w_ValueError, space.wrap(e.msg))
예제 #4
0
파일: floattype.py 프로젝트: alkorzt/pypy
def descr__new__(space, w_floattype, w_x=0.0):
    from pypy.objspace.std.floatobject import W_FloatObject
    w_value = w_x     # 'x' is the keyword argument name in CPython
    if space.is_true(space.isinstance(w_value, space.w_str)):
        strvalue = space.str_w(w_value)
        try:
            if USE_NEW_S2F:
                value = interp_string_to_float(space, strvalue)
            else:
                value = string_to_float(strvalue)
        except ParseStringError, e:
            raise OperationError(space.w_ValueError,
                                 space.wrap(e.msg))
예제 #5
0
파일: floattype.py 프로젝트: njues/Sypy
def descr__new__(space, w_floattype, w_x=0.0):
    from pypy.objspace.std.floatobject import W_FloatObject
    w_value = w_x  # 'x' is the keyword argument name in CPython
    w_special = space.lookup(w_value, "__float__")
    if w_special is not None:
        w_obj = space.get_and_call_function(w_special, w_value)
        if not space.isinstance_w(w_obj, space.w_float):
            raise OperationError(space.w_TypeError,
                                 space.wrap("__float__ returned non-float"))
        if space.is_w(w_floattype, space.w_float):
            return w_obj
        value = space.float_w(w_obj)
    elif space.isinstance_w(w_value, space.w_str):
        strvalue = space.str_w(w_value)
        try:
            value = string_to_float(strvalue)
        except ParseStringError, e:
            raise OperationError(space.w_ValueError, space.wrap(e.msg))
예제 #6
0
def descr__new__(space, w_floattype, w_x=0.0):
    from pypy.objspace.std.floatobject import W_FloatObject
    w_value = w_x     # 'x' is the keyword argument name in CPython
    w_special = space.lookup(w_value, "__float__")
    if w_special is not None:
        w_obj = space.get_and_call_function(w_special, w_value)
        if not space.isinstance_w(w_obj, space.w_float):
            raise OperationError(space.w_TypeError,
                                 space.wrap("__float__ returned non-float"))
        if space.is_w(w_floattype, space.w_float):
            return w_obj
        value = space.float_w(w_obj)
    elif space.is_true(space.isinstance(w_value, space.w_str)):
        strvalue = space.str_w(w_value)
        try:
            value = string_to_float(strvalue)
        except ParseStringError, e:
            raise OperationError(space.w_ValueError,
                                 space.wrap(e.msg))
예제 #7
0
            else:
                value = string_to_float(strvalue)
        except ParseStringError, e:
            raise OperationError(space.w_ValueError,
                                 space.wrap(e.msg))
    elif space.is_true(space.isinstance(w_value, space.w_unicode)):
        if space.config.objspace.std.withropeunicode:
            from pypy.objspace.std.ropeunicodeobject import unicode_to_decimal_w
        else:
            from unicodeobject import unicode_to_decimal_w
        strvalue = unicode_to_decimal_w(space, w_value)
        try:
            if USE_NEW_S2F:
                value = interp_string_to_float(space, strvalue)
            else:
                value = string_to_float(strvalue)
        except ParseStringError, e:
            raise OperationError(space.w_ValueError,
                                 space.wrap(e.msg))
    else:
        w_obj = space.float(w_value)
        if space.is_w(w_floattype, space.w_float):
            return w_obj  # 'float(x)' should return
                          # whatever x.__float__() returned
        value = space.float_w(w_obj)
    w_obj = space.allocate_instance(W_FloatObject, w_floattype)
    W_FloatObject.__init__(w_obj, value)
    return w_obj

# ____________________________________________________________