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While working on an embedded systems project using an Atmel SAM3X8E, I noticed the following bit of code in some of the CMSIS header files.

#ifndef __cplusplus
typedef volatile const uint32_t RoReg; /**< Read only 32-bit register (volatile const unsigned int) */
#else
typedef volatile       uint32_t RoReg; /**< Read only 32-bit register (volatile const unsigned int) */
#endif

Why does the typedef for C++ not include const? I saw somewhere a mention that C++ does not store integer const variables in runtime memory, which if true would mean the const would need to be removed because of how microcontroller registers are memory-mapped, but I can't seem to find anything else saying that C++ does that (though my search was admittedly pretty brief). Not having much experience with C++, I also thought it might be that C++ doesn't allow const struct members, as those typedefs are mostly used in struct typedefs for collections of registers, but that doesn't seem to be the case either.

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3  
... and why did the original author feel that "if not/else" was a good way to structure the logic? Aaargh. –  unwind Mar 14 '13 at 19:42
    
@unwind Many people advise always putting the positive part first. The author of that code considered #ifndef __cplusplus positive. –  Daniel Fischer Mar 14 '13 at 20:13
    
Personally, there are several ways I use to decide which block of code to put first; I generally base it on a mix of which version of the conditional looks better/makes more sense in context, which one is more likely to occur if that can be estimated, and which block of code is larger (if statements with small main blocks and big else blocks tend to look unbalanced to me). –  JAB Mar 14 '13 at 22:35
    
Reputation += LARGE_CONST; /* Ask some bike shed language question, that every idiot (including me) will have an opinion on. */ However, perhaps this link is actually helpful. embedded.com/electronics-blogs/programming-pointers/4025609/… Why is this question tagged with ARM? –  artless noise Mar 15 '13 at 1:32
    
@BillPringlemeir Because the header file the code snippet was encountered in is part of a library for an ARM processor, specifically CMSIS (hence the CMSIS tag). I figured that was enough reason to add those tags. –  JAB Mar 15 '13 at 13:52

3 Answers 3

up vote 3 down vote accepted

Because no RoReg object is ever instantiated, there is no good reason to omit the const qualifier in the typedef.

Every use of RoReg is in either a macro that defines a pointer to the type...

#define REG_WDT_SR (*(RoReg*)0x400E1A58U) /**< \brief (WDT) Status Register */

...or a struct declaration that is accessed using a similar macro.

typedef struct {
  WoReg WDT_CR; /**< \brief (Wdt Offset: 0x00) Control Register */
  RwReg WDT_MR; /**< \brief (Wdt Offset: 0x04) Mode Register */
  RoReg WDT_SR; /**< \brief (Wdt Offset: 0x08) Status Register */
} Wdt;

#define WDT        ((Wdt    *)0x400E1A50U) /**< \brief (WDT) Base Address */

Even with the const qualifier, the code should behave the same in both C and C++.

Perhaps the author misinterpreted the standard. To guarantee that a C++ struct has the same layout as in C, it requires that the class "has the same access control (Clause 11) for all non-static data members." The author may have mistaken const and volatile for access control specifiers. If they were, then you would want all the struct members to have the same cv-qualifiers in order to ensure compatibility between the C and C++ (and hardware) layouts. But it's public, protected, and private that define access control.

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This and Ben Voigt's answer are both good ones, so it was a little hard to choose, but I ended up going with this one as I feel it more strictly applies to the specific question asked and thus works better as the "official" one, so to speak. –  JAB Mar 19 '13 at 14:41

If you declare with const, C++ standard will obligate you to initialize the contents of the variable. In the case of micro-controller register, you do not want to do that.

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1  
That looks like a quote - where is it from? –  us2012 Mar 14 '13 at 17:08
5  
While this may well be part of the answer, in the situation raised here however, I doubt the compiler is ever tasked with "reserving space" since the register in question is likely to a fixed-location hardware feature of the processor/on chip peripherals. Likely the typedef is only every used to declare a pointer to such a register. –  Chris Stratton Mar 14 '13 at 17:17
1  
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Of course, the reason given by @fanl may still be the exact reason, even if it does not apply because merely a pointer-to-type is ever used. It's quite possible that the author of that header had that exact reasoning (whether it applies in practice or not). It is a plausible reasoning, at least. The fact that the compiler could still work it out doesn't necessarily mean that a human won't get it wrong. –  Damon Mar 14 '13 at 18:19
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@DKrueger - plausible perhaps in some other case, but CMSIS defines the addresses explicitly in header files. –  Chris Stratton Mar 14 '13 at 18:46

As mentioned by @fanl, const does indeed change the default linkage of globals in C++, and does prevent defining a variable without initialization.

But there are better ways to get external linkage than removing const. The usage of reserved arrays in the header file Chris linked is also very fragile. I would say this code leaves a lot of room for improvement -- don't emulate it.

And furthermore these variables don't get defined (that would cause the compiler and linker to select an address), they are always accessed via pointers, with the address fixed according to the memory map.

For headers intended purely for use by C++, this is how I do it (memory map matching a TI Stellaris chip).

Looks complicated, but the optimizing compiler reduces it down to a single instruction per access. And the address offsets are coded in, not dependent on the order and padding of fields inside a structure, so it's much less fragile and easier to verify against the datasheet.

template<uintptr_t extent>
struct memory_mapped_peripheral
{
    char data[extent];
    volatile       uint32_t* offset( uintptr_t off )       { return reinterpret_cast<volatile       uint32_t*>(data+off); }
    volatile const uint32_t* offset( uintptr_t off ) const { return reinterpret_cast<volatile const uint32_t*>(data+off); }
};

struct LM3S_SYSTICK : private memory_mapped_peripheral<0x1000>
{
    volatile       uint32_t& CTRL   (void)             { return offset(0x010)[0]; }
    volatile       uint32_t& RELOAD (void)             { return offset(0x014)[0]; }
    volatile       uint32_t& CURRENT(void)             { return offset(0x018)[0]; }
}* const SYSTICK = reinterpret_cast<LM3S_SYSTICK*>(0xE000E000);

struct LM3S_NVIC : private memory_mapped_peripheral<0x1000>
{
    volatile       uint32_t& EN    (uintptr_t i)       { return offset(0x100)[i]; }
    volatile       uint32_t& DIS   (uintptr_t i)       { return offset(0x180)[i]; }
    volatile       uint32_t& PEND  (uintptr_t i)       { return offset(0x200)[i]; }
    volatile       uint32_t& UNPEND(uintptr_t i)       { return offset(0x280)[i]; }
    volatile const uint32_t& ACTIVE(uintptr_t i) const { return offset(0x300)[i]; }
    volatile       uint32_t& PRI   (uintptr_t i)       { return offset(0x400)[i]; }
    volatile       uint32_t& SWTRIG(void)              { return offset(0xF00)[0]; }
}* const NVIC = reinterpret_cast<LM3S_NVIC*>(0xE000E000);
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The full code is here: coocox.org/repo/bf7c3c91-96ed-11df-80ae-001d7d723e56/src/cmsis/… What would be the proper way of doing it ? –  fanl Mar 14 '13 at 19:55
    
@fanl: Really, you can just put the const back in. Maintainability of that code isn't your problem. –  Ben Voigt Mar 14 '13 at 20:02
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I find interesting your approach. Is there a way to avoid data allocation in the memory_mapped_peripheral struct? –  fanl Mar 14 '13 at 20:18
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A suggestion that such a roundabout scheme is best would seem to contribute a lot of ammunition to the on-again/off-again argument about the suitability of C++ for hardware-level embedded work. It would seem a lot cleaner to just suggest doing all the I/O manipulation in C, and save C++ for your higher level tasks (if you feel compelled to use it). –  Chris Stratton Mar 14 '13 at 21:06
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"[T]he address offsets are coded in, not dependent on the order and padding of fields inside a structure[.]" The padding issue makes sense, but for a system where the register size is known and all registers in a group are contiguous, it seems to me that using a more conventional struct would be clearer/easier to look through for a code-writer. Your version may be more flexible, but it's also slightly more obtuse as you could easily change around the order of offsets while keeping the order of variables, which could cause confusion for someone referencing the structs directly. –  JAB Mar 14 '13 at 23:22

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