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(Question is related to my previous questions here, here, here, and here).

I am maintaining a very old application that was ported years ago from DOS to Windows, but a lot of the old C conventions still carry forward.

The one particular convention is a setBit and clrBit macro:

#ifndef setBit
#define setBit(word, mask) word |= mask
#endif

#ifndef clrBit
#define clrBit(word, mask) word &= ~mask
#endif

I found that I could declare a variable as an enum type and set my variable equal to the one of the enumerated values that are defined.

enum SystemStatus
{
    SYSTEM_ONLINE                = BIT0,
    SYSTEM_STATUS2               = BIT1,
    SYSTEM_STATUS3               = BIT2,
    SYSTEM_STATUS4               = BIT3
};

With BIT0 = 0x00000001, BIT1 = 0x00000002, etc.

SystemStatus systemStatus;

systemStatus = SYSTEM_ONLINE

In your opinion, is using the setBit and clrBit macros more C like or C++ like - and would it be better to simply declare variables as an enumerated type and get rid of all the old setBit/clrBit stuff?

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As Neil points out, they aren't exactly the same. That said, in C++ you should never use macros as functions, use a template function instead. Furthermore, for a collection of bits just use std::bitset and be done with it. (Much nicer interface.) –  GManNickG Jul 13 '10 at 19:34
    
In order to enumerate all possible states this way, you need 2^(number of bits) states. Probably not the cleanest solution. –  Justin Ardini Jul 13 '10 at 19:43
4  
@Justin Such is the nature of bits. –  anon Jul 13 '10 at 19:57
    
What Changeling seems to be describing is a "one-hot" state machine, where each bit represents one state and only one bit is allowed to be set at any time (all other combinations are illegal and would be caught by a default clause in the switch block). However, this notation is rarely seen outside firmware, since its main goal is to reduce combinational logic complexity by adding registers, and doesn't really make a bit of difference in a software-only state machine. –  Mike DeSimone Jul 13 '10 at 20:06

6 Answers 6

up vote 4 down vote accepted

I think you're confusing the purposes. The enum is about setting up values to use as flags. setBit and clrBit are about operating on data. That data might happen to be a flag, but that's really the only relationship between the two ideas.

That being said, macros are certainly NOT the C++ way of doing things. You would use inline functions instead. For example:

template<typename T>
inline T& setBit(T& word, T mask) { return word |= mask; }

template<typename T>
inline T& clrBit(T& word, T mask) { return word &= ~mask; }

Edit to fend off nitpickers:

This is just an example of how you could implement the functions. You don't need to use templates, you can use two template parameters instead of 1, you can use a void function or values instead of references if you want, (though then it would lose some of the original semantics). The main point is to get the benefits of type safety which you won't find in macros (among many other downsides of macros). http://www.parashift.com/c++-faq-lite/inline-functions.html#faq-9.5

Edit: Here's a void, non-template version for comparison

inline void setBit(unsigned int word, unsigned int mask) { word |= mask; }

inline void clrBit(unsigned int word, unsigned int mask) { word &= ~mask; }
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1  
Hence the last two sentences of my comment ;). You either need to cast the SystemState argument to unsigned int, or you can use the two type version. I prefer the former, but mostly because I have a great respect for languages that don't do any automatic conversions. –  Cogwheel Jul 13 '10 at 20:30
1  
@Johannes There are a lot of things that need downvoting. –  anon Jul 13 '10 at 21:20
1  
@Cogwheel Given that op != and op &= can be overloaded for any types, you have the possibility that setBit and clrBit can be called on types which have nothing whatsoever to do with bits. I don't think this is a good idea. In fact when it comes to bit manipulation in C++ it is normally a good idea to be extremely specific about the types being manipulated, one might even say it is necessary to do so.. –  anon Jul 13 '10 at 21:54
1  
@Neil: If I specify the type, wouldn't that be more specific than say using a macro, which has no type safety? –  user195488 Jul 13 '10 at 22:20
1  
@Changeling Specifying the type is good - and a normal function is more type-safe than a template. –  anon Jul 13 '10 at 22:24

No you can't - assigning the enum value overwrites the whole value, while the macros are changing bits in the existing value. And what are BIT0, BIT1 et al? That's like defining INT0, INT1 etc. - terrible practice.

Bottom line, is the old C-style code giving you any problems? If not, apply that time-honoured rule - if it ain't broke, don't fix it.

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3  
Unless they are constants for the zeroth, first, second, etc. order bits. That's not that bad. IMO it's easier to read than 0x00004000. –  James McNellis Jul 13 '10 at 19:35
1  
@James You mean that BIT0 might actually be defined as (1 << 31) - oh, that's sick! But possible I guess. –  anon Jul 13 '10 at 19:37
    
@Neil: Well, I was more thinking of starting counting with the lowest order bit, but I guess either way would work. –  James McNellis Jul 13 '10 at 19:39
    
@James Either way I would have thought implies conditional compilation for different architectures, in which case I'd rather wrap the whole enum in an #ifdef block and use integer literal constants in each. But perhaps the OP can tell us how BIT0 et al are actually defined? –  anon Jul 13 '10 at 19:43
2  
Instead of BIT0, BIT1, etc., common practice (in C in embedded systems, at least) is to use a macro: #define BIT(n) (1 << (n)). Then another set of #define macros would assign bit values to field names, e.g. #define SPI_START BIT(0), where these field names are as close as possible to those in the chip's data sheet. Also, setBit would be better named as setBits, since you can set several bits at once (e.g. setBits(spiCtrlReg, SPI_START | SPI_CONT);. –  Mike DeSimone Jul 13 '10 at 22:17

setBit & clrBit are fine, although I would convert them into inline functions in C++. They would be very handy if the status bits are independant of each other, such that:

  SystemStatus systemStatus = SYSTEM_ONLINE | SYSTEM_STATUS3;

is a valid setting.

systemStatus = clrBit(systemStatus, SYSTEM_STATUS3);
systemStatus = setBit(systemStatus, SYSTEM_STATUS4);
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+1: Indeed, setting flags like this is common and acceptable C++. Just look at iostream flags, for example. –  Justin Ardini Jul 13 '10 at 19:42

If you know for sure that in all the combinations and permutations of that code, people only ever use one bit at a time, that they clear before they set and never set twice in a row, then sure, use the enum instead. It will be clearer and more readable. But if sometimes the system is 0101 then your enum can't handle that.

OK, if the enums are bitflags so you might write

systemStatus = SYSTEM_ONLINE | BIT2;

Then I guess that is readable and can support the combinations, ok.

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Using an enum as you have done only works if you can ensure that no more than one bit should be set at a time. Otherwise you have to have an enumerated constant for all bit combinations, which can quickly become complex fairly quickly. You can use a set of #define statements (or an enum, I suppose) to alias bitmasks with a friendly name, but you will still likely end up using set/clear macros.

Setting and clearing bits definitely seems more of a "C-like" approach. However, I (personally) don't consider your enum approach very "C++-like". For a more C++-like approach, create a class to represent the system status and manipulate class members instead of bit fields. You could even overload the + and - operators to act like your setBit and clrBit function, respectively. For example, using systemStatus -= SYSTEM_ONLINE (with #define SYSTEM_ONLINE (1<<31) or similar) to clear the "System Online" bit if and only if it is set. You could possibly even inherit from a STL Bitset and re-use most of that functionality.

Edit: OP clarified that BIT0, etc are bitmasks, so my first paragraph is no longer relevant.

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I agree with bta about if you want use a C++ approach you should create a class that abstract all implementation about the states.

But I wont overload the +=, -= operators because you continue carrying C old school.

I suggest the declaration of method to do this.

You could choice between one method with a boolean flag or two for setup & clear.

class Status{...};

void main(){
    Status status;

    //first approach
    status.SystemOnline(true);
    status.BackUPOnline(false);

    //second approach
    status.SetEmergencySystem();
    status.ClearSystemOnline();
}

with this style you encapsulate the implementation about how to implement the storage of the information.

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