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Estoy intentando traspasar un codigo de Matlab a Julia, sin embargo tengo un error cuando intento ejecutar A= randn... (m y n se ejecutan sin problemas)
m = round(10*exp(log(100)*rand()))
n = round(10*exp(log(100)*rand()))
A = round(sigma*(randn(m,n)));
El error: MethodError: no method matching randn(::Float64, ::Float64)
En Julia, round únicamente redondea a tantos dígitos como indiques. Ejemplo:
julia> round(10.57, digits = 1)
10.6
julia> round(10.57, digits = 0)
11.0
Pero, nótese que:
julia> round(10.57, digits = 0) isa Integer
false
Y la función randn necesita que las dimensiones sean enteros, ya que ¿qué dimensión tiene una matriz de (10.0x5)?
La solución al problema pasa simplemente por convertirlo a un tipo entero:
julia> m = Int(round((10*exp(log(100)*rand()))))
196
julia> n = Int(round((10*exp(log(100)*rand()))))
80
julia> randn(m, n)
196×80 Matrix{Float64}:
-0.338527 0.919091 -0.805756 1.21764 -0.840262 … 0.483696 -1.5522 -2.11284 -1.12987
-1.48902 -0.763076 0.559108 0.808948 -0.712493 0.204387 0.170378 0.563179 0.896811
1.35562 -0.533283 -0.881877 -1.77778 1.28062 -0.440008 0.390854 -0.279679 -0.416463
-0.356996 1.40992 -0.359547 -0.373926 -0.0277324 1.27025 1.86382 1.30097 -0.369661
0.00537268 -0.759788 2.30765 -0.197545 -0.145871 -0.0967599 -0.060285 0.0477333 -0.704547
0.179037 -0.260163 -1.52097 1.47664 0.648531 … 0.60301 -1.50275 -0.569118 0.199974
-1.42254 1.688 -0.973713 0.671575 -0.124514 -0.200776 -1.57319 1.9454 0.297579
0.338746 -1.16853 -0.681051 -1.78057 1.33378 -0.800471 -0.861991 0.64073 -0.890785
-0.895684 1.19908 -1.17241 1.19836 1.83653 0.904639 -1.48884 -1.86271 -0.536287
-0.565051 -1.06757 -1.2103 1.9103 0.584925 -0.109526 2.16488 1.184 -0.50895
-1.51457 -0.364947 0.41839 -1.0451 1.46676 … -1.33555 -0.846842 0.79902 0.573643
0.145649 -1.32283 1.25309 -1.42731 -0.0869235 0.198298 0.0510992 0.676475 -0.0690357
0.0348139 0.722626 -1.26237 0.00239882 1.5516 -1.10318 1.23797 0.385364 -1.70347
⋮ ⋱
0.0288347 -0.396485 -0.188293 -1.4994 -0.994217 0.568184 0.110274 0.0956363 -0.0884397
-0.100542 -0.856825 0.861107 0.577723 1.04868 … -0.0469476 -1.42746 0.490992 -0.115437
0.283136 0.745315 1.23983 -0.513409 0.32863 -0.975982 0.0125279 -0.420864 -0.211027
-0.911426 0.909032 0.39178 0.121405 1.23239 -1.52523 0.21694 0.783335 0.135549
-1.02273 -0.628547 0.88929 -0.518107 1.00298 0.296201 -0.0674339 -1.62125 -1.02959
-0.93656 1.38738 -0.751345 2.19642 0.642252 1.52325 -0.0641779 -0.397013 0.43865
0.15975 0.263151 -1.00277 -0.288378 2.53049 … 0.618799 -0.919645 -0.87429 0.200413
0.637895 0.279829 1.11791 1.44518 -0.169004 -0.734972 -1.46977 -1.02315 -0.144916
-0.68204 0.191561 -0.145104 0.132979 -0.714469 -1.59593 -0.863564 0.298642 -0.0330418
1.08035 0.640044 -0.833827 -0.356928 1.0794 1.39448 1.79005 -0.389522 0.0940427
1.59312 0.012752 0.245805 -0.152936 0.00590619 -0.779995 -0.0698571 -1.25332 1.80952
-0.187718 -0.189629 -0.834244 -0.974346 -1.67586 … -0.211797 1.1483 0.973253 -2.11287
