I have the following piece of code. It was generated by my IDE and I am trying to understand it.

#define TRGMR (*(volatile union un_trgmr *)0xF0250).trgmr

Here the timer manager is at the location 0xF0250 according to the data sheet. But what I cant understand is the syntax.

union un_trgmr {
    unsigned char trgmr;
    __BITS8 BIT;

I know about pointers. But I really cant understand what exactly is being done. Could someone please help me out?By the way BITS8 is another struct with bitfields as follows:

typedef struct {
    unsigned char no0 :1;
    unsigned char no1 :1;
    unsigned char no2 :1;
    unsigned char no3 :1;
    unsigned char no4 :1;
    unsigned char no5 :1;
    unsigned char no6 :1;
    unsigned char no7 :1;
} __BITS8;

It's just a way of accessing a memory-mapped register at a fixed address 0xF0250. You can access individual bits of the registers via the BIT field of the union, or the whole 8 bit register via the trmgr field. The #define just gives you convenient access to the latter, so that you can write, e.g.

TRMGR = 0x3f; // write 0x3f to timer manager register

Note the use of volatile - this is a common technique with memory-mapped I/O registers to ensure that reads/writes always occur as intended and are not optimised away (as they might be with normal memory locations).

  • This volatile union un_trgmr * creates a pointer to the union. What is the point of the outermost *. Does it tell the union to be located at that address. – Developer Android Jul 21 '13 at 10:51
  • 3
    The outermost * dereferences the 'pointer to union', giving you the union. You can use TRMGR as an l-value (shown by Paul) or as an r-value: unsigned char bits = TRMGR;. I would argue that for the macro TRMGR, the whole union bit is ... overkill. The macro could perfectly well be written as #define TRMGR (*(volatile unsigned char *)0xF0250) and it would behave the same. This says "treat the memory address 0xF0250 as a volatile unsigned char * and access the value stored at that address". The version with the union does the same, more long-windedly. – Jonathan Leffler Jul 21 '13 at 11:06

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