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For an embedded System (little Endian ARM, language C - even if I use here for test purpose C++) I wrote the attached piece of code. I have to transmit and receive different configured data, bit aligned and of a given bit length. The configuration is performed using field_conf_t for each variable I have to send/receive like:

typedef struct field_conf_t { ... }; // see below

typedef struct {
    field_conf_t    a;
    field_conf_t    b;
    field_conf_t    c;
} tx_fields_conf_t;

const tx_fields_conf_t tx_fields_conf = {
    { 0, 8  },      // a - offset/length
    { 28, 12 },     // b - offset/length
    { 56, 8  }      // c - offset/length
};

The problem I have is that I think to much about single Bit-Ops, the tests fail.

Here the code:

#include <stdint.h>

#define BOOST_TEST_MODULE BitFieldTest
#include <boost/test/unit_test.hpp>

typedef uint8_t     uint8;
typedef uint16_t    uint16;
typedef uint32_t    uint32;
typedef unsigned long long uint64;

typedef struct {
    uint8   offset;     // [0-63]
    uint8   length;     // [1-32]
} field_conf_t;

typedef struct {
    field_conf_t    a;
    field_conf_t    b;
    field_conf_t    c;
} tx_fields_conf_t;

typedef union {
    uint8   buf[8];
    uint64  contents;
} msg_t;

void set_value(msg_t* const msg, const field_conf_t* const field, uint32 value)
{
    const uint32 mask = (1 << field->length) - 1;
    msg->contents    &= ~(mask          << field->offset);  // clear old contens
    msg->contents    |=  (value & mask) << field->offset;   // set new contens
}

uint32 get_value(const msg_t* const msg, const field_conf_t* const field)
{
    const uint32 mask = (1 << field->length) - 1;

    uint64 value = (msg->contents >> field->offset);
    value       &= mask;

    return (uint32)value;
}

// ########################################################################
struct TestFixture {
    TestFixture() : a(0xAA), b(0xBBB), c(0xCC) {
        conf.a.offset =  0; conf.a.length = 8;
        conf.b.offset = 25; conf.b.length = 12;
        conf.c.offset = 56; conf.a.length = 8;
    }
    uint32 a, b, c;
    msg_t msg;
    tx_fields_conf_t conf;
};

BOOST_FIXTURE_TEST_SUITE(MsgBitfieldTest, TestFixture);

BOOST_AUTO_TEST_CASE(Test_01)
{
    set_value(&msg, &conf.a, a);
    BOOST_CHECK(get_value(&msg, &conf.a) == a);

    set_value(&msg, &conf.b, b);
    BOOST_CHECK(get_value(&msg, &conf.a) == a);
    BOOST_CHECK(get_value(&msg, &conf.b) == b);

    set_value(&msg, &conf.c, c);
    BOOST_CHECK(get_value(&msg, &conf.a) == a);
    BOOST_CHECK(get_value(&msg, &conf.b) == b);
    BOOST_CHECK(get_value(&msg, &conf.c) == c);
}

BOOST_AUTO_TEST_SUITE_END();

and the test run output

Running 1 test case...
d:/work/bugee/test/can_msg/msg_bitsfields/msg_bitsfields/main.cpp(65): error in
"Test_01": check get_value(&msg, &conf.b) == b failed
d:/work/bugee/test/can_msg/msg_bitsfields/msg_bitsfields/main.cpp(69): error in
"Test_01": check get_value(&msg, &conf.b) == b failed
d:/work/bugee/test/can_msg/msg_bitsfields/msg_bitsfields/main.cpp(70): error in
"Test_01": check get_value(&msg, &conf.c) == c failed

*** 3 failures detected in test suite "BitFieldTest"

The buffer size is always 8 bytes; I'm happy that I can use 64-bit long long here; before I failed on byte aligned ops also (mask and Bit-Ops on each of the bytes). Note, that the value can not be greater than int32 /uint32. Also I know about C bitfields. They are too slow and I need a fast solution for the Embedded System used (other time consuming tasks are there).

I'm also interested in a solution with lsb/msb 32bit or even 8-byte slice fast solution but I would assume the use of 64 bit datatype is even more performant due to the compiler.

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2 Answers 2

Is there any problem with the fact that in your first code block you have:

const tx_fields_conf_t tx_fields_conf = {
    { 0, 8  },      // a - offset/length
    { 28, 12 },     // b - offset/length -- note the 28 here as the offset
    { 56, 8  }      // c - offset/length
};

But later in your application you have:

struct TestFixture {
    TestFixture() : a(0xAA), b(0xBBB), c(0xCC) {
        conf.a.offset =  0; conf.a.length = 8;
        conf.b.offset = 25; conf.b.length = 12;  // offset is *25* here, not 28 as above. Poss. problem?
        conf.c.offset = 56; conf.a.length = 8;
    }
    uint32 a, b, c;
    msg_t msg;
    tx_fields_conf_t conf;
};

Any chance that's an important discrepancy? Maybe nothing, but I did notice it...thought I'd point it out.

share|improve this answer
    
Thanks that you did point out this, but this doesn't matter. The structure 'API' I like to use in the final version. –  user1630297 Aug 29 '12 at 6:12

The problem is that in set_value

const uint32 mask = (1 << field->length) - 1;
msg->contents    &= ~(mask          << field->offset);  // clear old contens
msg->contents    |=  (value & mask) << field->offset;   // set new contens

mask << field->offset is a 32-bit value and so will be overflowed off the edge when field->offset + field->length >= 32. Changing mask to 64-bit should work to get the bit-shifts performed as 64-bit operations:

const uint64 mask = (1 << field->length) - 1;
share|improve this answer
    
Oh thanks; that solves the problem. –  user1630297 Aug 29 '12 at 8:07

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