This is the problem:
I have a cell array on the form indx{ii} where each ii is an array of size 1xNii (this means the arrays have different size).
And another cell array on the form indy{jj} where each jj is an array of the same size as ii.
The question is that I would like to create a function...
I even stumbled onto a question of someone with ~50 lines of code, asking if he could use parfor. I pointed out that his code was recursive so he couldn't, he answered: "Well yes, that's the complete problem! How to rewrite my code to make it parallellisable." >.,
Don't start me on this. Had to take over the code of another R&D intern this summer. The temporary variables were : PHI. Then PHI1. Then xPHI. The xPHI1. Then xPHI1_1
I do use switches in if statements a lot, but in the sense of a function which can produce 5 plots, or none, depending on the input value of the switch
mmmm Its not the same I think. If you are doing research, and you are plotting quite complex stuff in different parts, having a piece of code that "disables" it instead of comenting is reasonable
I often have a "plot_results" boolean on the beggining of my code, as often for debugging I need to run the stuff 100 times
because I think is too messy for nowadays. I think its a bit counterintuitive and hard to use. I did make alot of sense 10 years ago, but nowadays I preffer sublime or Atom, something more visual and user friendly
I agree on the way that it is not intuitive at the begginning and quite hard to take in hand.
But I find it quite powerful as it allows some quick manipulations that make the like way easier. As an example, you want to indent down 50 lines? *< 50 <* and it's done. There are a lot of quick tools like this that I like.
+ I like the idea of not using the mouse at all & vim is great with it
Whilst trying to golf several of my answers, I've needed to write large integers in as few characters as possible.
Now I know the best way to do that: I'll be getting you to be writing this program.
The challenge
Write a program that when given a positive integer, outputs a program that print...
Hey guys, what are the import capabilities like on Octave? For example, on MATLAB I remember there being quite good text file imports, where you can select quite a few different delimiters
can you use bit-encoding in MATLAB for this one? Thus decode the first 64 as a int64, then the next 64 and so on until you eventually reach 10^64^64 (call a for loop 10^64 times with 64 bits)
@Dustiny There is no specific thing that makes Octave special with respect to MAtlab, but being free.
And , if Matlab is better than other programming languages for you because it imports text files properly, you are probaly using it for the wrong pourpose XD
Ahh thanks! I'll try it out :D I was going to grab it soon to test out anyways
Might as well see what kind of text file imports it has then do my mathz later
Oddly enough my home-computer still has a R2012a student license on it, but I'm worried matlab would find out I'm not a student anymore and try to sue lol
nah, that wont happen probably. If its for your own playing definetly not. If you are working for someone/deploying software using badly licensed Matlab, yeah, be careful.
I only do when Im at my parents. I hate cooking for 1, so I always make four portions and freeze the rest for re-heating later in the week. And since I do not have a microwave I have to reheat in a pot and with a PVM that's a problem
@AnderBiguri - Which answer? I've written a lot since we last talked lol
@HamtaroWarrior - Part of the challenge of any coder is to create meaningful function names and variables XD. You can tell the quality of the coder if they create garbage names.
Because SVMs have been shown to be more accurate and more easily trainable than neural networks
Also, SVMs use the "kernel" trick to project non-linear high dimensional data onto a linear space
So classification is naturally better.
Which is why for the last 10-15 years, neural networks were barely used.
It has only become recent due to Google's Deep Dream that neural networks has seen a surge in popularity.
And back then, neural networks was definitely the way to do things. Applications such as digit recognition and autonomous driving were some of the cool applications.
are they very difficult to implement or I wud say complex because I don't want use much time I want to do things fast.....because generally when something is better it takes a lot of time