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You may look into Wikipedia or short summary for students. Everybody says that there are two instructions for the same thing. But nobody tells why?

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3 Answers 3

up vote 9 down vote accepted

Branches allow for conditions. But allowing for conditions takes up more bits in the instruction. Therefore, a branch's address is only 2^16 bits and only allows you to branch 2^15 - 1 instructions backward or 2^15 instructions forward.

A jump is unconditional and the bits saved by leaving out the condition can be used for the address. A jump allows for a 26 bit address and so can jump much further in the code than a branch. At the expense of not being conditional.

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Note this might be true for MIPS, but not for all CPU mnemonics. Z80 has relative jumps, and conditional jumps, and conditional relative jumps. A branch is a word nonexisting in Z80 assembly. –  TheBlastOne Jun 11 '12 at 14:18
So, if I am not interested in a condition, jump is always better? –  Hello World May 7 at 10:49
@HelloWorld Typically? Yes. But always? No. One situation I can think of is in a device with a very small memory. In that case, you wouldn't have far to go and would want to save as many bits as possible. So, an unconditional branch would be more appropriate. –  embedded.kyle May 7 at 13:41

Branches (b) use a PC-relative displacement while jumps (j) use absolute addresses. The distinction is important for position-independent code. Also, only jumps can be used for indirect control transfer (jr, using a register value).

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As already mentioned, branch has fewer bits, a shorter range and is relative. Jump has more bits and is absolute.

Take this example

b l0
beq $0,$1,l1
j l2

l0: .word 0,0
l1: .word 0,0
l2: .word 0,0

and you get this

00000000 <l0-0x1c>:
   0:   10000006    b   1c <l0>
   4:   00000000    nop
   8:   10010006    beq zero,at,24 <l1>
   c:   00000000    nop
  10:   0800000b    j   2c <l2>
  14:   00000000    nop
  18:   00000000    nop

0000001c <l0>:

00000024 <l1>:

0000002c <l2>:

now what the other answers may not have mentioned is that the unconditional branch is encoded, at least by gnu assembler, as a branch if equal, with the same register. There is no unconditional branch in mips, there is branch if equal and branch if not equal from what I can tell.

You see above the jump uses a 0xB which is the word address, 0xB*4 = 0x2C the address of the destination, where the conditionals use relative addressing pc+(signed_offset*4) where the pc=instruction_address+4; Or take instruction_address + 4 + (signed_offset*4) to get the destination address.

Using the alias b for branch instead of j for jump will create position independent code. Jump will not, have to re-link if you move around, for near jumps probably better to use branch instead of jump even though it is an alias. If you are a purist then you can use the real instruction beq $0,$0,label or pick any register beq $4,$4,label. register 0 being special and fast may be the better choice.

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Thanks. We know that the branch is a pseudo-instruction. I like your attempt to hint when using one instruction can be preferred to the other. But, I think that the speed of access is equal for all registers (cos CPU is synchronous) –  Val Jun 11 '12 at 15:16
it could cause a stall or blocking add r1,r2,something; beq r1,r1,somewhere can execute differently because it may or may not wait for the prior instruction to complete execution and writeback, than add r1,r2,something; beq r0,r0,somewhere as r0 is never written. Just depends on the core, etc. isolated yes one register is as good as another for read speed purposes. –  dwelch Jun 11 '12 at 15:27

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