When using ARM multiple stores and loads, register values are always loaded/stored in ascending order in memory. So, when using a descending multiple store, the registers are written into memory backwards. Your
STMDA instruction effectively breaks down into the following steps:
R0 - 4
R0 - 8
R0 - 12
R0 - 16
R0 - 20
R0 - 24
- subtract 28 from
R0 (because of writeback - the
So, to answer your questions:
The value of
R1 will be stored at
R0 - 24. (Here, I mean the value of
R0 before executing the instruction, not afterwards. You're using writeback - the
! - so after the instruction,
R0 will have had 28 subtracted from it.)
R1 is stored at
R0 - 24, but as explained above,
R1 is the last register to have its value stored in memory.
R7 is stored first, and subsequent stores from there grow downwards in memory.
I have to admit I don't know of any documentation that supports this answer. Also, it's been a while since I last did any ARM coding. However, I definitely remember wondering how the ARM stores registers in a descending multiple store. I figured this out by writing a short program to find out.