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I'd like to ask for an advice. I am working with small embedded uP.

I'd like to assign my various functions to myfunctions struct. How to do that correctly? Then I want to place this myfunctions (struct of function pointers) to specific memory address (e.g. 0x1000). Whats is the best procedure to achieve this?

typedef void (*fptr)(void);

typedef struct FCN_IMAGE
    fptr fcn1;
    fptr fcn2;
    fptr fcn3;

FUNC_T myfunctions;

Actually it should be sort of jump table.

Secondly I want to read this function pointers from within other program - directly from specified address location (e.g. 0x1000).

It means the first code should assign the struct of function pointers to specific memory location and other independent code should read this table from specific memory. Interconnection between those two programs should be

#define FCN_BASE_ADDRESS (0x1000)

Any ideas what is the best way to achieve it?

P.S. This will run on embedded processor - not PC.

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I think that would be a function of your linker. –  Hot Licks Oct 29 '11 at 13:36
partially you are right but it should be achievable to place function pointer to specific memory location, so the linker is not involved. –  Pepe Oct 29 '11 at 13:51
Example, I am not sure if it is correct: –  Pepe Oct 29 '11 at 13:53
unsigned int volatile * fcn_base = (unsigned short *) FCN_BASE_ADDRESS *fcn_base = ; –  Pepe Oct 29 '11 at 13:55
FUNC_T * myfunctions; *port = myfunctions->fcn1; –  Pepe Oct 29 '11 at 13:56

3 Answers 3

Locating objects at specific locations is usually most easily performed by the use of compiler specific extension; there is no standard method defined by the language. It may also be possible to locate a global object at a specific location by modifying the linker script, but that will be specific to your particular tool-chain

What compiler/tool-chain are you using? Refer to its documentation.

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I am using Freescale CodeWarrior tool, it seems to me there is only way by linker itself. So still studying it... –  Pepe Oct 29 '11 at 19:00
@Pepe: "Codewarior" is the name Freescale use for the development tools (IDE) for all their architectures, it tells me nothing about which compiler you are using. I am not convinced that you are right however, look in the documentation for "Global Variable Address Modifier (@address)" for example. –  Clifford Oct 30 '11 at 10:06
@Pepe, Clifford has answered your question. I use Freescale Codewarrior, and the typename varname @address format is the way to do what you want. –  Sam Skuce Nov 1 '11 at 14:42

Maybe the following will help you:

// assign my various functions to myfunctions struct
myfunctions.fcn1 = &YourFunction1;
myfunctions.fcn2 = &YourFunction2;
myfunctions.fcn3 = &YourFunction3;

// assign the struct of function pointers to specific memory location
memcpy((void*)FCN_BASE_ADDRESS, &myfunctions, sizeof(myfunctions));

// read this table from specific memory
memcpy(&myfunctions, (void*)FCN_BASE_ADDRESS, sizeof(myfunctions));

This is based on my guess on what you actually want to do.

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I just give a try. Code compiles as suggested but does not work and no results. At specific address there is no myfunctions. Maybe memcpy does not work on this (just guessing because of function pointer) ... –  Pepe Oct 29 '11 at 19:04
@Pepe: A memcpy is a memcpy; if this did not work for you then you misunderstood or misapplied the solution. This will work, so long as FCN_BASE_ADDRESS is not ROM. There is however a simpler way; if FCN_BASE_ADDRESS is of type 'FUNC_T*` then the functions can be accessed directly via FCN_BASE_ADDRESS->fcn1() for example without the second memcpy(). –  Clifford Oct 30 '11 at 9:50

This is the best way to solve it in a portable manner:

typedef void (*fptr)(void);

#define FCN_BASE_ADDRESS ((volatile fptr*)0x1000)

/* Make myfunctions an array, not a struct. 
   Structs can have padding and aren't portable.
   It doesn't look like you need a struct in this case.
fptr myfunctions [N] =
  fptr fcn1;
  fptr fcn2;
  fptr fcn3;

memcpy(&FCN_BASE_ADDRESS, myfunctions, sizeof(myfunctions));

Though if you are using Codewarrior, you could probably use a #pragma to allocate them where you want them. Here is an example assuming they are stored in read/write RAM and a 32-bit address bus.

// .prm file


// .c file
fptr myfunctions[N] = ...;

If they should be stored in ROM/flash, for example a vector table, then it must be done differently with READ_ONLY sections, #pragma CONST_SEG and const fptr. (Note that the const keyword in C behaves in irrational ways when combined with typedef:ed pointers. In this case I believe it would give a constant pointer to a non-constant function and thus it should end up in NVM as desired.)

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