This is a problem for homework but I'm thoroughly stumped. These problems should have a straight-forward solution, and I'm wondering if the teacher may have mistakenly made this problem like this. But here is the exact text:
"Write a program called LSHIFT to shift logically the 16-bit contents of memory locations 0x10010010 and 0x10010011 left according to the 8-bit shift count stored in memory location 0x10010012."
Here is my problem. To logically shift bits, MIPS only has two instructions: sll, which takes an immediate value (therefore I can't use it, right?) and sllv, which take a value stored in a register, but uses only 5 bits. This means that using sllv, I can only shift the bits a maximum of 32 places (2^5) but the problem wants me to write a program that will shift up to 256 places (2^8 for 8 bit shift count). I can only think of two ways around this:
1) Use multiplication instead
2) Break the 8-bit number into 8 pieces and run 8 separate instructions (e.g. if the shift count is 256, shift left 32, 8 times).
I also want to double-check--bits can be shifted into other memory locations, correct? Or are they restricted to their 32-bit, %4 memory addresses? As an example, will a 5-bit shift of count 11111 do the same thing as an 8-bit shift of count 11111111 because the bits are restricted to the same 32 bits of memory space?
Correct me if I'm wrong on anything, because like I said, there should be a simple solution.