# Code Optimization Tips:

I am using the following ASM routine to bubble sort an array. I want to know of the inefficiencies of my code:

``````.386
.model flat, c
option casemap:none

.code
public sample
sample PROC
;[ebp+0Ch]Length
;[ebp+08h]Array
push ebp
mov ebp, esp
push ecx
push edx
push esi
push eax
mov ecx,[ebp+0Ch]
mov esi,[ebp+08h]
_bubbleSort:
push ecx
push esi
cmp ecx,1
je _exitLoop
sub ecx,01h
_miniLoop:
push ecx
mov edx,DWORD PTR [esi+4]
cmp DWORD PTR [esi],edx
ja _swap
jmp _continueLoop
_swap:
lodsd
mov DWORD PTR [esi-4],edx
xchg DWORD PTR [esi],eax
jmp _skipIncrementESI
_continueLoop:
_skipIncrementESI:
pop ecx
loop _miniLoop
_exitLoop:
pop esi
pop ecx
loop _bubbleSort
pop eax
pop esi
pop edx
pop ecx
pop ebp
ret
sample ENDP
END
``````

Basically I have two loops, as usual for the bubble sort algorithm. The value of ecx for the outer loop is 10, and for the inner loop it is [ecx-1]. I have tried the routine and it compiles and runs successfully, but I am not sure if it is efficient.

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You do realize that bubble sort is a terrible sorting algorithm in terms of efficiency? What is the point (other than to provide an example of what not to do) of digging down to the assembler level if you are going to employ a quadratic-time sorting algorithm? – Steven Lu Oct 9 '11 at 22:25
Any other inefficiency pales next to the simple fact that you're using a bubblesort. Implementing a bubblesort in assembly is (quite rightly) the canonical example of doing entirely the wrong things and wasting your time on micro-optimizing the wrong algorithm. – Jerry Coffin Oct 9 '11 at 22:25
I literally LOLed when I read that you implemented a bubble sort in assembly. – Sam Harwell Oct 9 '11 at 22:32
okay guys, I know that bubble sort is not efficient. I am not speaking about the algorithm. I am asking you if I am coding ASM in an efficient manner. I am learning assembly right now, not working on some project. I am just asking for tips on the usage of registers and stuff. I repeat, this is not about the bubble sort algorithm. Thanks for the responses anyway! – devjeetroy Oct 9 '11 at 22:43
Voting to close as too localized. Crowdsourcing an optimizing compiler for one person's assembly code is not an activity of general interest. – bmargulies Oct 9 '11 at 22:51

Several simple tips:

1) Try to minimize the number of conditional jumps, because they are very expensive. Unroll if possible. 2) Reorder instructions to minimize stalls because of data depencency:

``````cmp DWORD PTR [esi],edx ;// takes some time to compute,
mov edx,DWORD PTR [esi+4] ;
ja _swap ;// waits for results of cmp
``````

3) Avoid old composite instructions (`dec`, `jnz` pair is faster than `loop` and is not bound to `ecx` register)

It would be quite difficult to write assembly code that is faster than the code generated by optimizing C compiler, because you should consider lots of factors: size of data and instruction caches, alignments, pipeline, instruction timings. You can find some good documentation about this here. I especially recommend the first book: Optimizing software in C++

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There are several things you can do to speed up your assembly code:

• don't do things like `ja label_1 ; jmp label_2`. Just do `jbe label_2` instead.

• `loop` is a very slow instruction. `dec ebx; jnz loopstart` is much faster

• use all registers instead of repeatedly push/pop ecx and esi. Use `ebx` and `edi` too.

• jmp-targets should be well aligned. Use `align 4` before the two loop-starts and after the `jbe`

Get yourself a manual for your cpu from Intel (you can download it as pdf), it has the timings for the opcodes, maybe it has other hints too.

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Substitute for "add esi,4" if we do not need a flag for this instruction:

``````_continueLoop:
lea esi,[esi+4]
``````
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