我创建了一个具有相应并集的ctype位字段结构,以便通过单个位字段和整数值访问它。我可以使用包含字段名称的变量来设置单个字段,但现在我想知道特定字段属于哪个字节。下面是我的代码示例:
import ctypes
c_short = ctypes.c_uint16
class Flags_bits(ctypes.LittleEndianStructure):
_fields_ = [
("bitField1", c_short, 1),
("bitField2", c_short, 4),
("bitField3", c_short, 6),
("bitField4", c_short, 1),
("bitField5", c_short, 2),
("bitField6", c_short, 2),
("bitField7", c_short, 6),
("bitField8", c_short, 4),
("bitField9", c_short, 4),
("bitField10", c_short, 1),
("bitField11", c_short, 1)]
class Flags(ctypes.Union):
_fields_ = [("b", Flags_bits),
("asInt", c_short*6)]
def setFlag (flagName, value):
flags = Flags()
setattr(flags.b, flagName, value)
print getattr(flags.b, flagName)
现在我想知道的是我的标志属于哪个整数(即,属于哪个标志.asInt[I]),我正在寻找一种"get_location"属性来获取结构中的标志位置,并从中检索整数的"I"索引,但我什么都找不到有简单的方法吗?
提前感谢您的回复!
Structure中的每个字段描述符都有一个offset属性,该属性定义其存储单元的字节偏移量。它还有一个size属性,其含义取决于它是否是位字段。如果是位字段,则size的低位字包含字段的存储单元位偏移,高位字包含字段中的位数。否则,size是以字节为单位的字段大小。
由于您的位字段存储单元都是c_short,因此您可以简单地将字段的字节offset除以sizeof(c_short)来计算asInt中的相应项。例如,Flags_bits.bitField6.offset // 2 == 0和Flags_bits.bitField7.offset // 2 == 1。
您还可以计算每个字段的比特范围:
import ctypes
c_short = ctypes.c_cshort
class Flags_bits(ctypes.LittleEndianStructure):
_fields_ = [("bitField1", c_short, 1),
("bitField2", c_short, 4),
("bitField3", c_short, 6),
("bitField4", c_short, 1),
("bitField5", c_short, 2),
("bitField6", c_short, 2),
("bitField7", c_short, 6),
("bitField8", c_short, 4),
("bitField9", c_short, 4),
("bitField10", c_short, 1),
("bitField11", c_short, 1)]
for field_descr in Flags_bits._fields_:
name = field_descr[0]
field = getattr(Flags_bits, name)
bfield_bits = field.size >> 16
if bfield_bits:
start = 8 * field.offset + field.size & 0xFFFF
stop = start + bfield_bits
else:
start = 8 * field.offset
stop = start + 8 * field.size
print("{:>10s}: bits {:>2d}:{:>2d}".format(
name, start, stop))
输出:
bitField1: bits 0: 1
bitField2: bits 1: 5
bitField3: bits 5:11
bitField4: bits 11:12
bitField5: bits 12:14
bitField6: bits 14:16
bitField7: bits 16:22
bitField8: bits 22:26
bitField9: bits 26:30
bitField10: bits 30:31
bitField11: bits 31:32