# Efficient vector operations of linear algebra in Common Lisp, especially SBCL?

The Program below seems very inefficient. It takes as much as 28.980 GC time, in contrast 6.361 sec non-GC time, with SBCL 1.0.53.

``````(deftype vec3 () '(simple-array double-float (3)))

(declaim (inline make-vec3 vec3-zero
vec3-x vec3-y vec3-z
vec3-+))

(defun make-vec3 (x y z)
(declare (optimize (speed 3) (safety 0)))
(make-array 3 :element-type 'double-float
:initial-contents (list x y z)))

(defun vec3-zero ()
(make-vec3 0.0d0 0.0d0 0.0d0))

(defun vec3-x (x)
(declare (optimize (speed 3) (safety 0)))
(declare (type (simple-array double-float (3)) x))
(aref x 0))

(defun vec3-y (x)
(declare (optimize (speed 3) (safety 0)))
(declare (type (simple-array double-float (3)) x))
(aref x 1))

(defun vec3-z (x)
(declare (optimize (speed 3) (safety 0)))
(declare (type (simple-array double-float (3)) x))
(aref x 2))

(defun vec3-+ (a b)
(declare (optimize (speed 3) (safety 0)))
(make-vec3 (+ (vec3-x a) (vec3-x b))
(+ (vec3-y a) (vec3-y b))
(+ (vec3-z a) (vec3-z b))))

;; main

(defun image (x y)
(make-array (* x y) :element-type 'vec3 :initial-element (vec3-zero)))

(declare (type (simple-array vec3 (*)) to from)
(type vec3 val)
(optimize (speed 3) (safety 0)))
(let ((size (array-dimension to 0)))
(dotimes (i size)
(setf (aref to i) (vec3-+ (aref from i) val)))))

(defun main ()
(let ((to (image 800 800))
(x (make-vec3 1.0d0 1.0d0 1.0d0)))
(time (dotimes (i 200)
(print (aref to 0))))
``````

time:

``````* (main)
Evaluation took:
39.530 seconds of real time
35.340237 seconds of total run time (25.945526 user, 9.394711 system)
[ Run times consist of 28.980 seconds GC time, and 6.361 seconds non-GC time. ]
89.40% CPU
83,778,297,762 processor cycles
46 page faults
6,144,014,656 bytes consed

#(200.0d0 200.0d0 200.0d0)
#(200.0d0 200.0d0 200.0d0)
``````

Are there any approach to compute it in more efficient way, keeping the vec3 abstraction?

For example, implementing Worker/Wrapper transformation using macro can eliminate the vec3 conses.

As another way, making cons pool for vec3 will decrease the memory allocation.

Ideally, it would be nice that SBCL supports non-descriptor representations for some data structure, like vec3, as array elements.

-
Maybe here you'll be able to find hints for improving performance: random-state.net/log/3530433886.html –  Vsevolod Dyomkin Dec 2 '11 at 20:54
Thanks. It's not about structured data like the vec3, but flat floating point operations. –  masayuki takagi Dec 5 '11 at 15:25

I think in these situations, making use of macros can be a good idea. Next, I'd always hesitate to declare (safety 0), it brings very very slight performance gains and can result in strange behaviour if, only the code inside the defun, but also all code calling the defun, is not absolutely correct.

The important thing here I think is to not make a new list object in make-vec3. I attach a somewhat quick and dirty optimization of your code. On my machine the original code runs in

``````; cpu time (non-gc) 27.487818 sec user, 0.008999 sec system
; cpu time (gc)     17.334368 sec user, 0.001999 sec system
; cpu time (total)  44.822186 sec user, 0.010998 sec system
; real time  44.839858 sec
; space allocation:
;  0 cons cells, 45,056,000,000 other bytes, 0 static bytes
``````

and my version runs in

``````; cpu time (non-gc) 4.075385 sec user, 0.001000 sec system
; cpu time (gc)     2.162666 sec user, 0.000000 sec system
; cpu time (total)  6.238051 sec user, 0.001000 sec system
; real time  6.240055 sec
; space allocation:
;  8 cons cells, 8,192,030,976 other bytes, 0 static bytes
``````

This is using Allegro. YMMV on other lisps. You mention pooling conses/memory for vec3 arrays, and I think reusing those objects, i.e. modifying them destructively, is a good idea when you have the opportunity to do so. On my lisp a vec3 takes 64 bytes, which is quite a bit... Another useful thing is of course to invoke the profiler to see where time is spent. Also, in these math-heavy problems, it is important that array references and arithmetic are open coded as much as possible. Mosts lisp can (dissassemble 'my-function), which gives a good idea if these operations were indeed open coded or if the runtime is invoked.

``````(deftype vec3 () '(simple-array double-float (3)))

(declaim (optimize (speed 3) (debug 0) (safety 1)))

(defmacro make-vec3 (x y z)
`(let ((vec3
(make-array 3 :element-type 'double-float :initial-element 0.0d0)))
(setf (aref vec3 0) ,x
(aref vec3 1) ,y
(aref vec3 2) ,z)
vec3))

(defun vec3-zero ()
(make-vec3 0.0d0 0.0d0 0.0d0))

(defmacro vec3-x (x)
`(aref ,x 0))

(defmacro vec3-y (x)
`(aref ,x 1))

(defmacro vec3-z (x)
`(aref ,x 2))

(defun vec3-+ (a b)
(declare (type vec3 a b))
(make-vec3 (+ (vec3-x a) (vec3-x b))
(+ (vec3-y a) (vec3-y b))
(+ (vec3-z a) (vec3-z b))))

(defun image (x y)
(make-array (* x y) :element-type 'vec3 :initial-element (vec3-zero)))

(declare (type (simple-array vec3 (*)) to from)
(type vec3 val))
(let ((size (array-dimension to 0)))
(dotimes (i size)
(setf (aref to i) (vec3-+ (aref from i) val)))))

(defun main ()
(let ((to (image 800 800))
(x (make-vec3 1.0d0 1.0d0 1.0d0)))
(time (dotimes (i 200)