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For example on add we have addi for adding a register and an immediate,why on this case we cant have bnei or beqi...

Im supposed to answer on that,but im not sure...any help?

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Which processor (MIPS?), and which assembler are you using? –  Michael May 26 '13 at 14:41
    
the answer will be in the instruction set documentation, either there is or isnt an instruction for what you are asking. WHY may have to do with bits available for encoding the instruction. –  dwelch May 26 '13 at 14:46
    
Yes on MIPS,i forgot to write that. –  Thomas May 26 '13 at 14:49

3 Answers 3

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The reason is the instruction encoding:

Both ADDI and BNE/BEQ are I-Type instructions. But whereas the immediate field in the ADDI instruction is used for storing the immediate operand for the addition, it's used for storing the branch offset in the case of BEQ/BNE.

There may be MIPS assemblers which allow you to use immediate operands in conditional branch instructions, but they will expand those pseudo-instructions into multiple actual instructions.

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Thats the only reason? I think that your answer is what im looking for,but can you explain it a little more? I cant understand this one "it's used for storing the branch offset in the case of BEQ/BNE" –  Thomas May 26 '13 at 15:01
    
The destination address for BEQ/BNE is not stored as an absolute address, but as an offset relative to the current instruction's location. That offset has to be stored somewhere in the 32-bit instruction word, and that "somewhere" happens to be the immediate field. This is shown on the page I linked to in my answer (the "Conditional branch" row of the integer instruction table). –  Michael May 26 '13 at 15:09
    
Ok i think i get it,thx! –  Thomas May 26 '13 at 15:19

The branch instructions usually follow a compare (cmpeq, cmpgt) instruction which can compare registers and immediates and set the appropriate flags. The branch then only checks the flags.

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You don't want to use the 16 bit immediate value as an address to jump to because that limits where you can jump. MIPS has 32 bits for an address. If you only use 16 bits, you are using a very small fraction of the possible addresses.

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