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I'd like assembly code for calculate sin(x) (using "Taylor Expansion") in Linux.

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Assembly code? Are you serious? – Greg Hewgill Aug 10 '09 at 2:51
Best Wishes to you too... I'd hate to have to code something like that. – Charlie Salts Aug 10 '09 at 2:59
Heh, I have one in C#. :o – Sam Harwell Aug 11 '09 at 6:02
Why would he not be serious? – Nosredna Aug 11 '09 at 6:33
Is this Homework? – Eliseo Ocampos Aug 11 '09 at 19:50
up vote 7 down vote accepted

Would this article help you?


It has a couple of algorithms for computing approximate sin(x) values, with both C and assembly versions. Granted, it's ARM assembly, but the gist of it should translate easily to x86 or similar.

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tanks a lot for attention!:-) – Hamid Aug 10 '09 at 3:15
sorry,thank a lot;-) – Hamid Aug 10 '09 at 3:17
great link. Thanks! – kenny Aug 15 '09 at 12:28
someone point me in the direction of Maths for beginners.. please. That link is giving me nightmares :) – Dark Star1 Aug 15 '09 at 12:56
@dark-star1: check out khanacademy.org - There's a set of videos on approximating functions about halfway into the Calculus playlist, and there are videos for every level of math leading up to it. – Cogwheel Jul 16 '10 at 18:29

You don't state which CPU architecture so I'm assuming x86.

The simplist (and possibly most inefficient) way would be to write the formula in RPN, which can be mapped almost directly to FPU instructions.


algebraic formula : x - (x^3/3!) + (x^5/5!)

RPN : x x x * x * 3 2 * / - x x * x * x * x * 5 4 * 3 * 2 * / +

which becomes :

fld x
fld x
fld x
fld x
fild [const_3]
fild [const_2]
fld x
fld x
fld x
fld x
fld x
fild [const_5]
fild [const_4]
fild [const_3]
fild [const_2]

There are some obvious optimisation strategies -

  • instead of calculating x, x*x*x, x*x*x*x*x etc for each term, store a 'running product' and just multiply by x*x each time
  • instead of calculating the factorial for each term, do the same 'running product'

Here's some commented code for x86 FPU, the comments after each FPU instruction show the stack state after that instruction has executed, with the stack top (st0) on the left, eg :

fldz ; 0
fld1 ; 1, 0


bits 32

section .text

extern printf
extern atof
extern atoi
extern puts
global main

  push eax
  push ecx

  ; input :
  ;  st(0) = x, value to approximate sin(x) of
  ;  [esp+12] = number of taylor series terms

  ; variables we'll use :
  ; s = sum of all terms (final result)
  ; x = value we want to take the sin of
  ; fi = factorial index (1, 3, 5, 7, ...)
  ; fc = factorial current (1, 6, 120, 5040, ...)
  ; n = numerator of term (x, x^3, x^5, x^7, ...)

  ; setup state for each iteration (term)
  fldz ; s x
  fxch st1 ; x s
  fld1 ; fi x s
  fld1 ; fc fi x s
  fld st2 ; n fc fi x s

  ; first term
  fld st1 ; fc n fc fi x s
  fdivr st0,st1 ; r n fc fi x s
  faddp st5,st0 ; n fc fi x s

  ; loop through each term
  mov ecx,[esp+12] ; number of terms
  xor eax,eax ; zero add/sub counter

  ; calculate next odd factorial
  fld1 ; 1 n fc fi x s
  faddp st3 ; n fc fi x s
  fld st2 ; fi n fc fi x s
  fmulp st2,st0
  fld1 ; 1 n fc fi x s
  faddp st3 ; n fc fi x s
  fld st2 ; fi n fc fi x s
  fmulp st2,st0 ; n fc fi x s

  ; calculate next odd power of x
  fmul st0,st3 ; n*x fc fi x s
  fmul st0,st3 ; n*x*x fc fi x s

  ; divide power by factorial
  fld st1 ; fc n fc fi x s
  fdivr st0,st1 ; r n fc fi x s

  ; check if we need to add or subtract this term
  test eax,1
  jnz odd_term
  fsubp st5,st0 ; n fc fi x s
  jmp skip
  ; accumulate result
  faddp st5,st0 ; n fc fi x s
  inc eax ; increment add/sub counter
  loop loop_term

  ; unstack work variables
  fstp st0
  fstp st0
  fstp st0
  fstp st0

  ; result is in st(0)

  pop ecx
  pop eax



  ; check if we have 2 command-line args
  mov eax, [esp+4]
  cmp eax, 3
  jnz error

  ; get arg 1 - value to calc sin of
  mov ebx, [esp+8]
  push dword [ebx+4]
  call atof
  add esp, 4

  ; get arg 2 - number of taylor series terms
  mov ebx, [esp+8]
  push dword [ebx+8]
  call atoi
  add esp, 4

  ; do the taylor series approximation
  push eax
  call taylor_sin
  add esp, 4

  ; output result
  sub esp, 8
  fstp qword [esp]
  push format
  call printf
  add esp,12

  ; return to libc
  xor eax,eax

  push error_message
  call puts
  add esp,4
  mov eax,1

section .data

error_message: db "syntax: <x> <terms>",0
format: db "%0.10f",10,0

running the program :

$ ./taylor-sine 0.5 1
$ ./taylor-sine 0.5 5
$ echo "s(0.5)"|bc -l
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Why? There is already a FCOS and FSIN opcode since the 80387 (circa 1987) processor




Personal friend from demo scene

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It's probably a homework exercise. – Nathan Fellman Nov 23 '10 at 7:18

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