I am having some difficulty trying to reinterpret data to pull information out of messages. I've tried to recreate the problem here.

I am receiving a series of long integers (32 bits) by popping them off a stack. I need to assemble these into 4 word(16 byte) packets. The struct I recreated below resembles the first word of a given packet. The difficulty I am having is that in order to determine which word is the starting packet, as well as which type of packet is which I need to be able to read the octal value of the data in the s5 member of the struct.
Simply put, for each message, I need to interpret bits 16-31 as a 16 bit integer regardless if it crosses bit boundaries on other messages.

I would have thought this would be a much easier task, but I cannot seem to get it to work. Here is what I have tried. I'm just getting Null values.

struct S
    uint8_t s1  :8;
    short s2    :2;
    bool s3 :1;
    int s4  :5;
    uint16_t s5 :16;

int main() {
    S s;
    s.s1 = 3;
    s.s2 = 2;
    s.s3 = true;
    s.s4 = 1;
    s.s5 = 02050;
    long l;
    memcpy(&l, &s, sizeof(S));
    std::deque<long> d;
    cout << *((uint16_t*)(&d.front()+2)) <<endl;
  • 1
    You are copying something the size of 'S' into a long? A long isn't big enough to hold all that EDIT: my apologies, I misread that. Still I would check your structure packing and be sure that sizeof(S) == sizeof (long) – Joe Oct 23 '17 at 19:34
  • The longs on our system are 32 bits, or four bytes. – mreff555 Oct 23 '17 at 19:37
  • Yeah sorry I posted too quickly. But are you sure that sizeof(S) == sizeof(long)? – Joe Oct 23 '17 at 19:38
  • 1
    I did verify. S is 4 bytes in size. Good observation though. Had I used integers for s2 and s3 I would have ended up with a larger struct unless it was packed. – mreff555 Oct 23 '17 at 19:40
  • 2
    The layout of bits in a bitfield is implementation defined. The fields might not even be in the same order as defined. – dbush Oct 23 '17 at 19:43

If you already have the long value from your stream, why not just use bit shifting?

Assuming the data is big-endian, you could just shift off the first 16 bits, to get your octal value:

// 69733891 is the big-endian integral value represented by
// your posted sample data, so the octal value should be 02050,
// or as an int 1064
long l = 69733891; 
uint16_t s5 = l >> 16; // shift off to get the high value (s5)

For little endian (as is implied in your post), you could use a bitwise AND:

uint16_t s5 = l & 0xFFFF;

And for a quick comparison of the assembly generated for a bit shift, versus a pointer alias, here's what GCC generated (no optimizations):

Assembly generated for bit shift (note that SAR is the single instruction to perform a right bit shift):

' uint16_t s5 = l >> 16;
mov    rax,QWORD PTR [rbp-0x18]
sar    rax,0x10
mov    WORD PTR [rbp-0x1a],ax

Assembly generated for pointer alias:

' uint16_t s5 = *((uint16_t*)&d[0]);
lea    rax,[rbp-0x20]
mov    esi,0x0
mov    rdi,rax
call   4e <main+0x4e>
movzx  eax,WORD PTR [rax] ' this is the "4e" address called
mov    WORD PTR [rbp-0x12],ax

Hope that can help.

  • 1
    I think you meant bitwise-AND (&), not XOR (^). – Adrian McCarthy Oct 23 '17 at 20:17
  • @AdrianMcCarthy .. good catch :) Haven't had my second coffee for the day :) – txtechhelp Oct 23 '17 at 20:18
  • Shift operators don't depend on endianness, but right shifting a signed value will fill it with the sign bit. – Bob__ Oct 24 '17 at 6:29
  • @Bob__ .. correct about the endian-ness for shift operators .. but if the OP is pulling this "stream" from a network resource then endian-ness might play a role when the data is received (e.g. one system might differ, etc.) – txtechhelp Oct 24 '17 at 8:25
  • 2
    @DanFeerst .. Bit shifting is well less computationally complex than a pointer alias; I've updated my answer with the generated assembly to show this. Plus if the value you're grabbing needs additional reads due to alignment issues, you'll definitely have a performance impact with the extra memory pulls to get the full value. – txtechhelp Oct 24 '17 at 16:02

You are facing multiple issues here:

  • The bitfield packing is implementation defined
  • Reinterpreting your long as S* or S& violates the strict aliasing rule

If you stick with the long value, you either have to use assumptions about your compiler, e.g. endianess, bit-packing order, etc, or maybe disable string aliasing (which I wouldn't recommend).


If l was created by a memcpy from an instance of struct S, then copying the value back into a different instance of struct S should result in the exact same bit layout.

So, we can make a copy of the front object inside the deque into an instance of struct S and check it's s5 member:

long f = d.front();
S sf;
memcpy(&sf, &f, sizeof(sf));
std::cout << std::oct << sf.s5 << std::endl;
  • That is great advice, but like I said above, I created the structure simply to replicate the message. The actual way I am receiving this is by popping a long off a deque, so unfortunately, there are no members. – mreff555 Oct 23 '17 at 19:58
  • @DanFeerst, I understand you didn't try my solution with your longs, but it works as well. Updated answer – Daniel Trugman Oct 23 '17 at 20:01
  • 3
    This is undefined behavior, it violates the strict aliasing rule. – alain Oct 23 '17 at 20:02
  • With respect to the edits, can you reinterpret_cast an uninitialized value to a reference of a different type? And is the reinterpret_cast in the first code snippet implementation-defined because of the implementation-defined order of the bits in the bitfield? – Millie Smith Oct 23 '17 at 20:14
  • @alain, you are right, I fixed the violations – Daniel Trugman Oct 23 '17 at 20:30

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