2 ;;; Copyright (c) 2006-2008, by A.J. Rossini <blindglobe@gmail.com>
3 ;;; See COPYRIGHT file for any additional restrictions (BSD license).
4 ;;; Since 1991, ANSI was finally finished. Edited for ANSI Common Lisp.
6 ;;; Time-stamp: <2009-03-12 23:18:12 tony>
7 ;;; Creation: sometime in 2006...
9 ;;; Author: AJ Rossini <blindglobe@gmail.com>
10 ;;; Copyright: (c) 2007, AJ Rossini. BSD.
11 ;;; Purpose: demonstrations of how one might use CLS.
13 ;;; What is this talk of 'release'? Klingons do not make software
14 ;;; 'releases'. Our software 'escapes', leaving a bloody trail of
15 ;;; designers and quality assurance people in its wake.
18 ;; (asdf:oos 'asdf:load-op 'lift)
19 ;; (asdf:oos 'asdf:load-op 'cffi)
20 ;; (asdf:oos 'asdf:compile-op 'lispstat :force t)
21 ;; (asdf:oos 'asdf:compile-op 'lispstat)
22 (asdf:oos
'asdf
:load-op
'lispstat
)
24 ;;; non-rigorous check for exports.
25 ;;; This is generally not how I expect it to be used.
28 (lisp-stat:binomial-quant
0.95 3 0.4) ;;; 3
29 (lisp-stat:binomial-quant
0 3 0.4) ;;; 0
30 (lisp-stat:normal-rand
20) ;;; 20 floating-point numbers :-)
32 ;;;; THIS is how I expect it to be used, either with work in ls-user,
33 ;;;; or a cloned package similar to ls-user.
37 ;;; linear algebra (matrices and vectors)
39 (in-package :cl-user
) ; the following will barf, but...
41 (+ #2A
((2 3 4) (2 3 4)) #2A
( (4 5 6) (1 1 1)))
42 (* #2A
((2 3 4) (2 3 4)) #2A
( (4 5 6) (1 1 1)))
43 (in-package :ls-user
) ; the next will succeed
45 (+ #2A
((2 3 4) (2 3 4)) #2A
( (4 5 6) (1 1 1)))
46 (* #2A
((2 3 4) (2 3 4)) #2A
( (4 5 6) (1 1 1)))
51 (chol-decomp #2A
((2 3 4) (1 2 4) (2 4 5)))
52 ;; (#2A((1.7888543819998317 0.0 0.0)
53 ;; (1.6770509831248424 0.11180339887498929 0.0)
54 ;; (2.23606797749979 2.23606797749979 3.332000937312528e-8))
59 (defparameter my-chol-decomp-test
(chol-decomp #2A
((2 3 4) (1 2 4) (2 4 5))))
61 (nth 0 my-chol-decomp-test
)
62 (nth 1 my-chol-decomp-test
)
65 (lu-decomp #2A
((2 3 4) (1 2 4) (2 4 5)))
66 ;; (#2A((2.0 3.0 4.0) (1.0 1.0 1.0) (0.5 0.5 1.5)) #(0 2 2) -1.0 NIL)
69 (lu-decomp #2A
((2 3 4) (1 2 4) (2 4 5)))
71 ;; #(-2.333333333333333 1.3333333333333335 0.6666666666666666)
73 (inverse #2A
((2 3 4) (1 2 4) (2 4 5)))
74 ;; #2A((2.0 -0.33333333333333326 -1.3333333333333335)
75 ;; (-1.0 -0.6666666666666666 1.3333333333333333)
76 ;; (0.0 0.6666666666666666 -0.3333333333333333))
78 (sv-decomp #2A
((2 3 4) (1 2 4) (2 4 5)))
79 ;; (#2A((-0.5536537653489974 0.34181191712789266 -0.7593629708013371)
80 ;; (-0.4653437312661058 -0.8832095891230851 -0.05827549615722014)
81 ;; (-0.6905959164998124 0.3211003503429828 0.6480523475178517))
82 ;; #(9.699290438141343 0.8971681569301373 0.3447525123483081)
83 ;; #2A((-0.30454218417339873 0.49334669582252344 -0.8147779426198863)
84 ;; (-0.5520024849987308 0.6057035911404464 0.5730762743603965)
85 ;; (-0.7762392122368734 -0.6242853493399995 -0.08786630745236332))
88 (qr-decomp #2A
((2 3 4) (1 2 4) (2 4 5)))
89 ;; (#2A((-0.6666666666666665 0.7453559924999298 5.551115123125783e-17)
90 ;; (-0.3333333333333333 -0.2981423969999719 -0.894427190999916)
91 ;; (-0.6666666666666666 -0.5962847939999439 0.44721359549995787))
92 ;; #2A((-3.0 -5.333333333333334 -7.333333333333332)
93 ;; (0.0 -0.7453559924999292 -1.1925695879998877)
94 ;; (0.0 0.0 -1.3416407864998738)))
96 (rcondest #2A
((2 3 4) (1 2 4) (2 4 5)))
100 (eigen #2A
((2 3 4) (1 2 4) (2 4 5)))
101 ;; (#(10.656854249492381 -0.6568542494923802 -0.9999999999999996)
102 ;; (#(0.4999999999999998 0.4999999999999997 0.7071067811865475)
103 ;; #(-0.49999999999999856 -0.5000000000000011 0.7071067811865474)
104 ;; #(0.7071067811865483 -0.7071067811865466 -1.2560739669470215e-15))
107 (spline #(1.0
1.2 1.3 1.8 2.1 2.5)
108 #(1.2
2.0 2.1 2.0 1.1 2.8) :xvals
6)
109 ;; ((1.0 1.3 1.6 1.9 2.2 2.5)
110 ;; (1.2 2.1 2.2750696543866313 1.6465231041904045 1.2186576148879609 2.8))
112 ;;; using KERNEL-SMOOTH-FRONT, not KERNEL-SMOOTH-CPORT
113 (kernel-smooth #(1.0
1.2 1.3 1.8 2.1 2.5)
114 #(1.2
2.0 2.1 2.0 1.1 2.8) :xvals
5)
115 ;; ((1.0 1.375 1.75 2.125 2.5)
116 ;; (1.6603277642110226 1.9471748095239771 1.7938127405752287
117 ;; 1.5871511322219498 2.518194783156392))
119 (kernel-dens #(1.0
1.2 2.5 2.1 1.8 1.2) :xvals
5)
120 ;; ((1.0 1.375 1.75 2.125 2.5)
121 ;; (0.7224150453621405 0.5820045548233707 0.38216411702854214
122 ;; 0.4829822708587095 0.3485939156929503))
124 (fft #(1.0
1.2 2.5 2.1 1.8))
125 ;; #(#C(1.0 0.0) #C(1.2 0.0) #C(2.5 0.0) #C(2.1 0.0) #C(1.8 0.0))
127 (lowess #(1.0
1.2 2.5 2.1 1.8 1.2) #(1.2
2.0 2.1 2.0 1.1 2.8))
128 ;; (#(1.0 1.2 1.2 1.8 2.1 2.5))
132 ;;;; Special functions
134 ;; Log-gamma function
136 (log-gamma 3.4) ;;1.0923280596789584
140 ;;;; Probability functions
142 ;; looking at these a bit more, perhaps a more CLOSy style is needed, i.e.
143 ;; (quantile :list-or-cons loc :type type (one of 'empirical 'normal 'cauchy, etc...))
144 ;; similar for the cdf, density, and rand.
145 ;; Probably worth figuring out how to add a new distribution
146 ;; efficiently, i.e. by keeping some kind of list.
148 ;; Normal distribution
150 (normal-quant 0.95) ;;1.6448536279366268
151 (normal-cdf 1.3) ;;0.9031995154143897
152 (normal-dens 1.3) ;;0.17136859204780736
153 (normal-rand 2) ;;(-0.40502015f0 -0.8091404f0)
155 (bivnorm-cdf 0.2 0.4 0.6) ;;0.4736873734160288
157 ;; Cauchy distribution
159 (cauchy-quant 0.95) ;;6.313751514675031
160 (cauchy-cdf 1.3) ;;0.7912855998398473
161 (cauchy-dens 1.3) ;;0.1183308127104695
162 (cauchy-rand 2) ;;(-1.06224644160405 -0.4524695943939537)
164 ;; Gamma distribution
166 (gamma-quant 0.95 4.3) ;;8.178692439291645
167 (gamma-cdf 1.3 4.3) ;;0.028895150986674906
168 (gamma-dens 1.3 4.3) ;;0.0731517686447374
169 (gamma-rand 2 4.3) ;;(2.454918912880936 4.081365384357454)
171 ;; Chi-square distribution
173 (chisq-quant 0.95 3) ;;7.814727903379012
174 (chisq-cdf 1 5) ;;0.03743422675631789
175 (chisq-dens 1 5) ;;0.08065690818083521
176 (chisq-rand 2 4) ;;(1.968535826180572 2.9988646156942997)
180 (beta-quant 0.95 3 2) ;;0.9023885371149876
181 (beta-cdf 0.4 2 2.4) ;;0.4247997418541529
182 (beta-dens 0.4 2 2.4) ;;1.5964741858913518
183 (beta-rand 2 2 2.4) ;;(0.8014897077282279 0.6516371997922659)
187 (t-quant 0.95 3) ;;2.35336343484194
188 (t-cdf 1 2.3) ;;0.794733624298342
189 (t-dens 1 2.3) ;;0.1978163816318102
190 (t-rand 2 2.3) ;;(-0.34303672776089306 -1.142505872436518)
194 (f-quant 0.95 3 5) ;;5.409451318117459
195 (f-cdf 1 3.2 5.4) ;;0.5347130905510765
196 (f-dens 1 3.2 5.4) ;;0.37551128864591415
197 (f-rand 2 3 2) ;;(0.7939093442091963 0.07442694152491144)
199 ;; Poisson distribution
201 (poisson-quant 0.95 3.2) ;;6
202 (poisson-cdf 1 3.2) ;;0.17120125672252395
203 (poisson-pmf 1 3.2) ;;0.13043905274097067
204 (poisson-rand 5 3.2) ;;(2 1 2 0 3)
206 ;; Binomial distribution
208 (binomial-quant 0.95 3 0.4) ;;; DOESN'T RETURN
209 (binomial-quant 0 3 0.4) ;;; -2147483648
210 (binomial-cdf 1 3 0.4) ;;0.6479999999965776
211 (binomial-pmf 1 3 0.4) ;;0.4320000000226171
212 (binomial-rand 5 3 0.4) ;;(2 2 0 1 2)
216 (in-package :ls-user
)
217 (defproto *test-proto
*)
219 (defmeth *test-proto
* :make-data
(&rest args
) nil
)
221 (defparameter my-proto-instance nil
)
222 (setf my-proto-instance
(send *test-proto
* :new
))
223 (send *test-proto
* :own-slots
)
224 (lsos::ls-object-slots
*test-proto
*)
225 (lsos::ls-object-methods
*test-proto
*)
226 (lsos::ls-object-parents
*test-proto
*)
227 (lsos::ls-object-preclist
*test-proto
*)
228 ;;; The following fail and I do not know why?
229 (send *test-proto
* :has-slot
'proto-name
)
230 (send *test-proto
* :has-slot
'PROTO-NAME
)
231 (send *test-proto
* :has-slot
'make-data
)
232 (send *test-proto
* :has-slot
'MAKE-DATA
)
233 (send *test-proto
* :has-method
'make-data
)
234 (send *test-proto
* :has-method
'MAKE-DATA
)
237 (defproto2 *test-proto3
* (list) (list) (list) "test doc" t
)
238 (defproto2 *test-proto4
*)
240 (defmeth *test-proto
* :make-data
(&rest args
) nil
)
242 (defparameter my-proto-instance nil
)
243 (setf my-proto-instance
(send *test-proto
* :new
))
244 (send *test-proto
* :own-slots
)
245 (send *test-proto
* :has-slot
'proto-name
)
246 (send *test-proto
* :has-slot
'PROTO-NAME
)
251 (in-package :lisp-stat-unittests
)
258 (describe (run-tests :suite
'lisp-stat-ut-testsupport
))
259 (describe (run-tests :suite
'lisp-stat-ut-testsupport2
))
261 (testsuite-tests 'lisp-stat-ut
)
262 (run-tests :suite
'lisp-stat-ut
)
263 (describe (run-tests :suite
'lisp-stat-ut
))
265 (run-tests :suite
'lisp-stat-ut-probdistn
)
266 (describe (run-tests :suite
'lisp-stat-ut-probdistn
))
267 (run-tests :suite
'lisp-stat-ut-spec-fns
)
268 (describe (run-tests :suite
'lisp-stat-ut-spec-fns
))
270 (find-testsuite 'lisp-stat-ut-lin-alg
)
271 (testsuite-tests 'lisp-stat-ut-lin-alg
)
272 (run-tests :suite
'lisp-stat-ut-lin-alg
)
273 (describe (run-tests :suite
'lisp-stat-ut-lin-alg
))
275 ;;;; Data Analysis test
277 (in-package :ls-user
)
279 ;; LispStat 1 approach to variables
282 (def iron
(list 61 175 111 124 130 173 169 169 160 224 257 333 199))
284 (def aluminum
(list 13 21 24 23 64 38 33 61 39 71 112 88 54))
286 (def absorbtion
(list 4 18 14 18 26 26 21 30 28 36 65 62 40))
289 ;; LispStat 1 approach to data frames... (list of lists).
292 (QUOTE ((80 97 105 90 90 86 100 85 97 97 91 87 78 90 86 80 90 99 85 90 90 88 95 90 92 74 98 100 86 98 70 99 75 90 85 99 100 78 106 98 102 90 94 80 93 86 85 96 88 87 94 93 86 86 96 86 89 83 98 100 110 88 100 80 89 91 96 95 82 84 90 100 86 93 107 112 94 93 93 90 99 93 85 89 96 111 107 114 101 108 112 105 103 99 102 110 102 96 95 112 110 92 104 75 92 92 92 93 112 88 114 103 300 303 125 280 216 190 151 303 173 203 195 140 151 275 260 149 233 146 124 213 330 123 130 120 138 188 339 265 353 180 213 328 346)
293 (356 289 319 356 323 381 350 301 379 296 353 306 290 371 312 393 364 359 296 345 378 304 347 327 386 365 365 352 325 321 360 336 352 353 373 376 367 335 396 277 378 360 291 269 318 328 334 356 291 360 313 306 319 349 332 323 323 351 478 398 426 439 429 333 472 436 418 391 390 416 413 385 393 376 403 414 426 364 391 356 398 393 425 318 465 558 503 540 469 486 568 527 537 466 599 477 472 456 517 503 522 476 472 455 442 541 580 472 562 423 643 533 1468 1487 714 1470 1113 972 854 1364 832 967 920 613 857 1373 1133 849 1183 847 538 1001 1520 557 670 636 741 958 1354 1263 1428 923 1025 1246 1568)
294 (124 117 143 199 240 157 221 186 142 131 221 178 136 200 208 202 152 185 116 123 136 134 184 192 279 228 145 172 179 222 134 143 169 263 174 134 182 241 128 222 165 282 94 121 73 106 118 112 157 292 200 220 144 109 151 158 73 81 151 122 117 208 201 131 162 148 130 137 375 146 344 192 115 195 267 281 213 156 221 199 76 490 143 73 237 748 320 188 607 297 232 480 622 287 266 124 297 326 564 408 325 433 180 392 109 313 132 285 139 212 155 120 28 23 232 54 81 87 76 42 102 138 160 131 145 45 118 159 73 103 460 42 13 130 44 314 219 100 10 83 41 77 29 124 15)
295 (3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 2 3 3 2 2 3 2 2 3 3 3 3 2 3 3 3 3 3 2 3 3 3 3 3 2 3 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1))))
298 (DEF DLABS
(QUOTE ("GLUFAST" "GLUTEST" "INSTEST" "CCLASS")))
299 (format t
"loaded data.~%")
300 ) ;; eval at this point.
302 ;; Simple univariate variable-specific descriptions.
305 (sort-data absorbtion
)
307 (standard-deviation absorbtion
)
308 (interquartile-range absorbtion
)
310 (lisp-stat-matrix::bind-columns aluminum iron
)
311 (bind-columns aluminum iron
)
312 (apply #'bind-columns
(list aluminum iron
))
313 (lisp-stat-matrix::bind-columns
#2a
((1 2)(3 4)) #(5 6))
314 (bind-columns #2a
((1 2)(3 4)) #(5 6))
317 (defparameter fit1 nil
)
318 (setf fit1
(regression-model absorbtion iron
))
320 (send fit1
:residuals
)
323 (defparameter fit1a nil
)
324 (setf fit1a
(regression-model absorbtion iron
:print nil
))
326 ;; (setf (send fit1a :doc) "this") ;; FIXME: this error...
327 (send fit1a
:doc
"this") ;; FIXME: this is a more natural
331 (send fit1a
:compute
)
332 (send fit1a
:sweep-matrix
)
334 (send fit1a
:residuals
)
335 (send fit1a
:display
)
339 (array-dimension #2A
((1)) 0)
342 ;;; FIXME: need to get multiple-linear regression working -- clearly
343 ;;; simple linear is working above!
344 (defvar m nil
"holding variable.")
345 (def m
(regression-model (list iron aluminum
) absorbtion
:print nil
))
347 (send m
:sweep-matrix
)
348 (format t
"~%~A~%" (send m
:sweep-matrix
))
351 (send m
:basis
) ;; this should be positive?
352 (send m
:coef-estimates
)
355 (def m
(regression-model (bind-columns iron aluminum
) absorbtion
))
357 (send m
:help
:display
)
358 (send m
:help
:basis
)
359 ;; No graphics! But handle the error gracefully...
360 (send m
:plot-residuals
)
363 (typep aluminum
'sequence
)
364 (typep iron
'sequence
)
375 (asdf:oos
'asdf
:compile-op
'cl-cairo2
:force t
)
376 (asdf:oos
'asdf
:load-op
'cl-cairo2
)
378 ;; This can be used to generate PDF, PS, PNG, and X11/Microsoft
379 ;; displays (the latter being a proof of concept, of limited use for
384 (asdf:oos
'asdf
:compile-op
'rclg
:force t
)
385 (asdf:oos
'asdf
:load-op
'rclg
)
388 (in-package :rclg-user
)
390 ;; rclg-init::*r-started*
392 ;;;#3 Start R within Lisp
395 ;; rclg-init::*r-started*
396 (rclg-init::check-stack
)
398 (defparameter *x
* (r seq
1 11))
399 (defparameter *y
* (r rnorm
10))
404 (defparameter *r-version
* (r "version"))
406 ;; This is for illustrative purposes only. It is not a "good" use of rnbi.
407 ;; Really, you'll want rnbi to hold anonymous intermeditae results, like:
408 (r plot
*x
* (rnbi rnorm
10))
410 (r "Sys.getenv" "LD_LIBRARY_PATH")
411 (r "Sys.getenv" "LD_PRELOAD")
419 (r "library" "stats")
421 (r "library" "Biobase")
423 (setf my.lib
"Biobase")
429 (r "print.default" 3)
432 ;; Working in the R space
435 (r assign
"x2" (list 1 2 3 5))
437 (r assign
"x2" #(1 2 3 5 3 4 5))
438 (r assign
"z" "y") ;; unlike the above, this assigns character data
442 (setf my.r.x2
(r get
"x2")) ;; moving data from R to CL
443 (r assign
"x2" my.r.x2
) ;; moving data from CL to R
445 ;; The following is not the smartest thing to do!
450 ;;; How might we do statistics with Common Lisp?
451 ;;; How might we work with a data.frame?
452 ;;; What could the structures be?
453 ;;; How much hinting, and of what type, should drive the data
456 (defpackage :my-data-analysis-example
457 (:documentation
"Example work-package for a data analysis")
458 (:use
:common-lisp
:lisp-stat
)
459 (:export results figures report
))
461 (in-package :my-data-analysis-example
)
463 (defvar my-dataset1
(read-file "data/test1.lisp"))
465 (defvar my-dataset2
(read-file "data/test1.csv" :type
'csv
))
469 (setf my-dataset2
(set-description my-datasets2
470 :dependent-variables
(list of symbols
)))
471 (setf my-dataset2
(set-description my-datasets2
472 :independent-variables
(list of symbols
)))
474 ;; the following could be true in many cases.
476 (list-intersection (get-description my-datasets2
:independent-variables
)
477 (get-description my-datasets2
:dependent-variables
)))
479 ;; but we could phrase better,i.e.
483 :predicate-list-on-variable-metadata
(list (and 'independent-variables
484 'dependent-variables
)))
487 ;; statistical relations re: input/output, as done above, is one
488 ;; issue, another one is getting the right approach for statistical
492 :predicate-list-on-variable-metadata
(list 'ordinal-variables
))
495 ;; so we could use a set of logical ops to selection from variable
498 ;; do we really need the simplifying extensions?
503 (report my-dataset1
:style
'five-num
)
504 (report my-dataset1
:style
'univariate
)
505 (report my-dataset1
:style
'bivariate
)
506 (report my-dataset1
:style
'metadata
)
513 :stream
(filename-as-stream "my-dataset1-5num.pdf"))
514 (report my-dataset1
:style
'univariate
)
515 (report my-dataset1
:style
'bivariate
)
516 (report my-dataset1
:style
'metadata
)
518 ;;; so report could handle datasets... and models?
520 (report my-model
:style
'formula
)
521 (report my-model
:style
'simulate
522 (list :parameters
(:eta
5 :mu
4 :sigma
(list 2 1 0.5))
524 ;; should return a list of parameters along with range information,
525 ;; useful for auto-building the above. Note that there are 3 types
526 ;; of parameters that can be considered -- we can have values which
527 ;; define ddata, we can have values which define fixed values and some
528 ;; could be things tht we estimate.
531 (defgeneric report
(object &optional style format stream
)
532 (:documentation
"method for reporting on data"))
534 (defmethod report ((object dataset
)
535 (style report-dataset-style-type
)
536 (format output-format-type
)
537 ((stream *repl
*) output-stream-type
))
541 (defmethod report ((object model
)
542 (style report-model-style-type
)
543 (format output-format-type
)
544 ((stream *repl
*) output-stream-type
))
547 (defmethod report ((object analysis-instance
)
548 (style report-analysis-style-type
)
549 (format output-format-type
)
550 ((stream *repl
*) output-stream-type
))
551 "model + dataset reporting")
554 ;; parameters are just things which get filled with values, repeatedly
555 ;; with data, or by considering to need estimation.
556 (parameters my-model
)
557 (parameters my-model
:type
'data
)
558 (parameters my-model
:type
'fixed
)
559 (parameters my-model
:type
'estimate
)
560 (parameters my-model
:type
'(estimate fixed
))
561 (parameters my-model
:list-types
) ;; useful for list-based extraction
562 ;; of particular types
564 (setf my-model-data-instance
565 (compute model data
:specification
(list :spec
'linear-model
567 :indepvar
(list x1 x2
))))
568 (report my-model-data-instance
)
571 ;;; So how might we use this? Probably need to consider the
572 ;;; serialization of any lisp objects generated, perhaps via some form
573 ;;; of memoization...?
574 (in-package :cl-user
)
576 (my-data-analysis-example:report
:type
'full
)
577 (my-data-analysis-example:report
:type
'summary
)
578 (my-data-analysis-example:figures
:type
'pdf
:file
"results-figs.pdf")
580 (my-data-analysis-example:report
)
585 (def m
(regression-model (bind-columns iron aluminum
) absorbtion
))
587 (send m
:help
:display
)
588 (send m
:help
:basis
)
590 (send m
:plot-residuals
)
593 ;; General Lisp, there is also a need to add, remove symbols from the
594 ;; workspace/namespace. This is a fundamental skill, similar to
595 ;; stopping, which is critical.
598 ;; makunbound, fmakunbound
603 ;;; A study in array vs list access
604 (defparameter *x
* (list 1 2 3))
605 (defparameter *y
* #(1 2 3))
606 (defparameter *z
* (list 1 (list 2 3) (list 4 5 (list 6 7)) ))
609 (length *z
*) ; => need a means to make this 7.
610 (length (reduce #'cons
*z
*)) ; => not quite -- missing iterative
617 (setf (aref *y
* 1) 6)
621 (in-package :ls-user
)
624 (defparameter *x
* (make-vector 5 :initial-contents
'((1d0 2d0
3d0
4d0
5d0
))))
625 ;; estimating a mean, simple way.
626 (/ (loop for i from
0 to
(- (nelts *x
*) 1)
627 summing
(vref *x
* i
))
631 (checktype x
'vector-like
)
632 (/ (loop for i from
0 to
(- (nelts *x
*) 1)
633 summing
(vref *x
* i
))
636 ;; estimating variance, Moments
637 (let ((meanx (mean *x
*))
639 (/ (loop for i from
0 to
(1- n
)
640 summing
(* (- (vref *x
* i
) meanx
)
641 (- (vref *x
* i
) meanx
)))
644 ;; estimating variance, Moments
645 (let ((meanx (mean *x
*))
646 (nm1 (1- (nelts *x
*))))
647 (/ (loop for i from
0 to nm1
648 summing
(* (- (vref *x
* i
) meanx
)
649 (- (vref *x
* i
) meanx
) ))
654 ;;;;;;;;;;;;;;; Data stuff
658 ;; Making data-frames (i.e. cases (rows) by variables (columns))
659 ;; takes a bit of getting used to. For this, it is important to
660 ;; realize that we can do the following:
661 ;; #1 - consider the possibility of having a row, and transposing
662 ;; it, so the list-of-lists is: ((1 2 3 4 5)) (1 row, 5 columns)
663 ;; #2 - naturally list-of-lists: ((1)(2)(3)(4)(5)) (5 rows, 1 column)
664 ;; see src/data/listoflist.lisp for code to process this particular
666 (defparameter *indep-vars-1-matrix
*
667 (transpose (make-matrix 1 (length iron
)
669 (list (mapcar #'(lambda (x) (coerce x
'double-float
))
671 "creating iron into double float, straightforward")
673 (documentation '*indep-vars-1-matrix
* 'variable
)
674 ;; *indep-vars-1-matrix*
677 (defparameter *indep-vars-1a-matrix
*
678 (make-matrix (length iron
) 1
680 (mapcar #'(lambda (x) (list (coerce x
'double-float
)))
682 ;; *indep-vars-1a-matrix*
684 ;; and mathematically, they seem equal:
685 (m= *indep-vars-1-matrix
* *indep-vars-1a-matrix
*) ; => T
686 ;; but of course not completely...
687 (eql *indep-vars-1-matrix
* *indep-vars-1a-matrix
*) ; => NIL
688 (eq *indep-vars-1-matrix
* *indep-vars-1a-matrix
*) ; => NIL
691 (print *indep-vars-1-matrix
*)
692 (print *indep-vars-1a-matrix
*)
694 (documentation 'lisp-matrix
:bind2
'function
) ; by which we mean:
695 (documentation 'bind2
'function
)
696 (bind2 *indep-vars-1-matrix
* *indep-vars-1a-matrix
* :by
:column
) ; 2 col
697 (bind2 *indep-vars-1-matrix
* *indep-vars-1a-matrix
* :by
:row
) ; 1 long col
700 (defparameter *indep-vars-2-matrix
*
701 (transpose (make-matrix 2 (length iron
)
704 (mapcar #'(lambda (x) (coerce x
'double-float
))
706 (mapcar #'(lambda (x) (coerce x
'double-float
))
708 ;; *indep-vars-2-matrix*
711 (defparameter *indep-vars-2-matrix
*
712 (make-matrix (length iron
) 2
714 (mapcar #'(lambda (x y
)
715 (list (coerce x
'double-float
)
716 (coerce y
'double-float
)))
718 ;; *indep-vars-2-matrix*
721 ;; The below FAILS due to coercion issues; it just isn't lispy, it's R'y.
723 (defparameter *dep-var
* (make-vector (length absorbtion
)
724 :initial-contents
(list absorbtion
)))
726 ;; BUT below, this should be the right type.
727 (defparameter *dep-var
*
728 (make-vector (length absorbtion
)
732 (mapcar #'(lambda (x) (coerce x
'double-float
))
737 (defparameter *dep-var-int
*
738 (make-vector (length absorbtion
)
740 :element-type
'integer
741 :initial-contents
(list absorbtion
)))
743 (typep *dep-var
* 'matrix-like
) ; => T
744 (typep *dep-var
* 'vector-like
) ; => T
746 (typep *indep-vars-1-matrix
* 'matrix-like
) ; => T
747 (typep *indep-vars-1-matrix
* 'vector-like
) ; => T
748 (typep *indep-vars-2-matrix
* 'matrix-like
) ; => T
749 (typep *indep-vars-2-matrix
* 'vector-like
) ; => F
752 ;; following fails, need to ensure that we work on list elts, not just
753 ;; elts within a list:
755 ;; (coerce iron 'real)
757 ;; the following is a general list-conversion coercion approach -- is
758 ;; there a more efficient way?
760 ;; (mapcar #'(lambda (x) (coerce x 'double-float)) iron)
762 (princ "Data Set up"))