## New answers tagged language-agnostic

0

int genIndex(int i, int len) {
int offset = (i + 1) / 2; // Calculate offset
if(i % 2 == 0) offset = -offset; // Calculate direction
return (len - 1)/2 + offset; // Return offset from centre
}
...
for(int i = 0; i < arr.size(); ++i) {
print(arr[genIndex(i, arr.size())]);
}
Live example

0

Interfaces is one of the primary mechanism that allows you to invert dependency so that implementations can depend on abstractions instead of the other way round. Therefore, if you follow the SOLID principles, interfaces should be preferred over direct instantiation.
Like any other language feature, it can be abused or over-used. But when used for ...

0

The "composition over inheritance" principle refers to the cases in which you are trying to reuse code.
The principle says that it's better to reuse code by composition than by inheritance.
It does not apply to interfaces, as interfaces do not implement code that will be reused (at least, not until Java 8 :).

1

First, there is nothing wrong with using O(n! / (n-k)!k!) - or any other function f(n) as O(f(n)), but I believe you are looking for a simpler solution that still holds the same set.
If you are willing to look at the size of the subset k as constant,
for k<=n-k:
n! / ((n-k)!k!) = ((n-k+1) (n-k+2) (n-k+3) ... n ) / k!
But the above is actually (n^k + ...

0

Have you tried the PCSIM: A Parallel neural Circuit SIMulator?
http://www.lsm.tugraz.at/pcsim/
It's a very hard to understand code, but its is the original LSM of Prof. Wolfgang Maass paper
Open Source implementation C# of Liquid State Machine https://bitbucket.org/Hananel/liquid-state-machine/wiki/Home.
The C# code is improvement of the Liquid State ...

0

Took from PHP doc:
http://php.net/manual/en/language.types.float.php#language.types.float.comparison
To test floating point values for equality, an upper bound on the
relative error due to rounding is used. This value is known as the
machine epsilon, or unit roundoff, and is the smallest acceptable
difference in calculations.
$a and $b are ...

0

This is an answer for the edited question that is language-agnostic and wants a single function to display the elements in the stated order.
First, chose a "middle" index.
var i = Math.floor((a.length-1)/2);
Then alternate right and left moving outwards incrementally until either edge of the array is encountered.
To facilitate this, start with a ...

-1

i++ means first use the value of i and then change it (increment by 1 i.e i=i+1).++i means first change the value of i( increment by 1 i.e i=i+1) and then use it.
Example: In C++
#include<iostream.h>
int main()
{ int i=4;
cout<<++i<<endl;
cout<<i<<endl;
cout<<i++<<endl;
cout<<i;
...

1

There is no difference if you are not using the value after increment in the loop.
for (int i = 0; i < 4; ++i){
cout<<i;
}
for (int i = 0; i < 4; i++){
cout<<i;
}
Both the loops will print 0123.
But the difference comes when you uses the value after increment/decrement in your loop as below:
Pre Increment Loop:
for (int ...

0

Well here is an elegant, non-recursive, O(n!) solution:
public static StringBuilder[] permutations(String s) {
if (s.length() == 0)
return null;
int length = fact(s.length());
StringBuilder[] sb = new StringBuilder[length];
for (int i = 0; i < length; i++) {
sb[i] = new StringBuilder();
}
...

0

I have an algorithm in java that outputs a similar output to yours, except that it prioritizes the number on the right, then the number on the left.
public static String[] rationals(int amount){
String[] numberList=new String[amount];
int currentNumberLeft=0;
int newNumberLeft=0;
int currentNumberRight=0;
int newNumberRight=0;
int ...

2

there is a tempfile module just for this
import tempfile
new_dir = tempfile.mkdtemp() #makes a new temp folder guaranteed to be unique(in the os-specific temp location)
...
os.remove(new_dir)
really I dont think you even need to remove the new_dir as it will automagically be gone on next reboot usually(*i think)

0

Well... Heartbleed is probably still racking up millions. I'm sure there are still a lot of servers that haven't patched it yet.
http://www.theguardian.com/technology/2014/apr/18/heartbleed-bug-will-cost-millions
http://www.eweek.com/security/heartbleed-ssl-flaws-true-cost-will-take-time-to-tally.html

1

An algorithm to list the elements from innermost to outermost is to pull off the last and first entries (pop and shift) in the array in alternation until no elements are left, then reverse the list of what you have pulled off. This works for odd and even-length arrays naturally.
For example,
1,2,3,4,5,6
1,2,3,4,5 6
2,3,4,5 6,1
2,3,4 ...

1

DP[i-1][j] and DP[i][j-1] shall have DP[i-1][j-1] common sub-sequences which will be double counted.
Change your recurrence to:
DP[i][j]= DP[i][j-1] + DP[i-1][j] when A[i]==B[j]
and
DP[i][j]=DP[i-1][j]+DP[i][j-1]-DP[i-1][j-1] other wise
Explanation:
In your original relations, I have just subtracted a term DP[i-1][j-1]. This is because DP[i][j-1] and ...

0

What it comes down to is what tool is needed to do the job.
Exceptions are a very powerful tool. Before using them ask if you need this power and the complexity that comes with it.
Exceptions may appear simple, because you know that when the line with the exception is hit everything comes to a halt. What happens from here though?
Will an uncaught ...

0

Here is copy-and-paste solution for Swift and HSV scale:
UIColor initializer accepts hue, saturation and brightness in [0, 1] so for given value from [0, 1] we have:
let hue: CGFloat = value / 3
let saturation: CGFloat = 1 // Or choose any
let brightness: CGFloat = 1 // Or choose any
let alpha: CGFloat = 1 // Or choose any
let color = ...

1

This can be achieved computing liveness information.
Compilers generally translate the source code into a lower-level intermediate representation (IR), divide that code into basic blocks (jumpless code) and from there they build a control-flow graph (CFG).
The liveness analysis can compute LiveOut sets for each basic block. If a variable is in the LiveOut ...

0

Use an algorithm to generate combinations of size K from the set of N.
(Pick any from the SO question: Algorithm to return all combinations of k elements from n).
Using the result, apply Heap's Algorithm to create all permutations of this k-element subset (or another Algorithm to generate all possible permutations of a list).
Generate the next subset of ...

0

If you want to compare files one by one, use ExamDiff.

0

You probably seek How to generate a combination by its number. The algorithm consists of creating a sequence of C(a[i],i) with i iterating from the number of items in a combination downto 1, so that the sum of these C values is equal to your given number. Then those a[i] get inverted by length-1 and produced as result. A code in Powershell that makes this ...

0

Example function to choose k items from a list of n items
void recurCombinations( listSoFar, listRemaining )
{
if ( length(listSoFar) == k )
{
print listSoFar;
return;
}
if ( length(listRemaining) <= 0 )
return;
// recur further without adding next item
recurCombinations( listSoFar, listRemaining - ...

2

IIUC, you're describing the classic problem of estimating the confidence interval of the mean with unknown variance. That is, suppose you have n results, x1, ..., xn, where each of the xi is a sample from some process of which you don't know much: not the mean, not the variance, and not the distribution's shape. For some required confidence interval, you'd ...

0

Finding the comnbination is also done via backtracking. At each step - you "guess" if you should or should not add the current candidate element, and recurse on the decision. (and repeat for both "include" and "exclude" decisions).
Here is a jave code:
public static int getCombinations(int[] arr, int maxSize) {
return getCombinations(arr, maxSize, 0, ...

0

In Dijstra algorithm basically you add all the vertices that are available to u as an option and you take the minimum of them. Basically if you go step by step.
Node : only the source : Edges : Direct edges coming out of the source.
Adding each edge would take log(Edge_taken_in) time
Take the minimum of them all and remove that one.
Add all the edges ...

0

When you extract a vertex from the heap, you then need to examine all the edges coming out of that node and do some processing for each neighbour (decreasing key).
This means that we end up examining all edges during the entire algorithm, and may require O(logV) for each edge, so total of O(ElogV) in addition to the O(VlogV) cost for removing the minimum ...

0

This is relatively easy. Every possible code execution path must lead to an assignment before usage of the variable. Loops are treated as possible paths, too; the repetition doesn't matter for this kind of analysis.

2

How about using Threading?
If you spin up a couple of threads, each thread can run independently and you can join the threads when they are completed.
Try some code like this: (This code is heavily commented so that you can follow what's going on)
# Import threading
import threading
# Create a handler class.
# Each instance will run in it's own ...

0

Idea I had for floating point comparison in swift
infix operator ~= {}
func ~= (a: Float, b: Float) -> Bool {
return fabsf(a - b) < Float(FLT_EPSILON)
}
func ~= (a: CGFloat, b: CGFloat) -> Bool {
return fabs(a - b) < CGFloat(FLT_EPSILON)
}
func ~= (a: Double, b: Double) -> Bool {
return fabs(a - b) < Double(FLT_EPSILON)
}

0

Stability means rate of change (derivative) is zero or close to zero.
The test function spins up concurrency requests and tracks throughput.
This rate starts off at zero, then spikes and dips until it eventually
stabilises on the 'true' value.
I would track your past throughput values. For example last X values or so. According to this values, I ...

0

Concurrency is the generalized form of parallelism. For example parallel program can also be called concurrent but reverse is not true.
Concurrent execution is possible on single processor (multiple threads, managed by scheduler or thread-pool)
Parallel execution is not possible on single processor but on multiple processors. (One process per processor)
...

0

I'm not an expert, and I think this solution may be not efficient, but at least it is easy to do:
#you want to get a/b
from fractions import Fraction:
print float(Fraction(a,b))
Comments are well accepted

0

This problem looks like Job Shop Scheduling, which is NP-complete (which means there's no optimal greedy algorithm - despite that experts are trying to find one since the 70's). Here's a video on a more advanced form of that use case that is being solved with a Greedy algorithm followed by Local Search.
If we presume your use case can indeed be relaxed to ...

1

In fact, neither "earliest deadline first", "highest profit first" nor "highest profit/duration first" are correct algorithm...
Assume 2 jobs:
Job A has profit 1, time duration 1, deadline before day 1;
Job B has profit 2, time duration 2, deadline before day 2;
Then "earliest deadline first" fails to get correct answer. Correct answer is B.
Assume ...

1

Just navigate to Source > Format and click on format it automatically format the whole function.
Shortcut : Alt+Shift+f
Make sure you have done all formatting . Link for detail formatting : https://blogs.oracle.com/netbeansphp/entry/formatting_tabs_and_indents

1

I don't know if my formula is correct.
Mathematically speaking - this is indeed the formula for the problem you describe. However, note that in many languages, 1/3 * minor exam + 2/3 * midterm exam will be parsed as integer arithmetic operations, and that will lead to wrong answer (always 0).
The reason is, in integer arithmetic, when calculating a/b, ...

0

I'm trying to give simple examples of the two types of lines.
In the first diagram, the solid line shows an association:
If the classes were declared in Java, this would be like ClassA storing a reference to ClassB as an attribute (it could be passed in to the constructor, created, etc.). So, you might see something like:
public class ClassA {
...

0

Anatoliy's answer in PHP:
public static function detectCardType($num)
{
$re = array(
"visa" => "/^4[0-9]{12}(?:[0-9]{3})?$/",
"mastercard" => "/^5[1-5][0-9]{14}$/",
"amex" => "/^3[47][0-9]{13}$/",
"discover" => "/^6(?:011|5[0-9]{2})[0-9]{12}$/",
);
if (preg_match($re['visa'],$num))
...

0

I found this to be the most intuitive way of solving the problem.
import random
# game_show will return True/False if the participant wins/loses the car:
def game_show(knows_bayes):
doors = [i for i in range(3)]
# Let the car be behind this door
car = random.choice(doors)
# The participant chooses this door..
choice = ...

0

CVS, git, and subversion have different workflow designs.
It is inaccurate and misleading to say (git/subversion was designed to fix problems with cvs).
Rather, subversion was written, because someone wanted a different workflow than CVS/RCS works best with. And then git was written because someone wanted yet another different workflow.
superficially, ...

0

This is the coolest thing, if it would ever work, because the computer if it built synonyms automatically would work in any language (even in animated sculpture space.) and the more synonyms it knew the more it could make.
I lay my best hopes in this method for ai, over all others so far.
What I think is not just building some word class heirarchy. (which ...

0

May be you can get the signs of b and d by bitwise operation, and then rewrite "a/b>c/d" as
(((b>>31)&1) ^ ((d>>31)&1)) ^ (ad > bc)
which is equivalent to
((b>0) ^ (d>0)) ^ (ad > bc)
say b and d are 32-bits integers

1

You can rewrite it as:
a*d*b*d > b*c*b*d
This way if b and d have different signs then b*d will be a negative number and the comparison will be flipped back the correct way. Be careful about overflows however. To make the code equivalent to a/b > c/d you will also need to check if b or d are zeros.

1

When you multiply both sides of an inequality by some non-zero number v, then if v is negative you must reverse the direction of the inequality.
So in your case you are multiplying by b*d so
if (a/b > c/d) {
...
}
is equivalent to
v == b * d;
if(v==0) {
error
}
if ( ( (v>0) && (a*d > c*b) ) ||
( (v<0) && (a*d < ...

0

A Javascript version:
function subsetSum(numbers, target, partial) {
var s, n, remaining;
partial = partial || [];
// sum partial
s = partial.reduce(function (a, b) {
return a + b;
}, 0);
// check if the partial sum is equals to target
if (s === target) {
console.log("%s=%s", partial.join("+"), target)
}
if ...

0

You might notice how, particularly toward the end, a single body might be in contact with two or more others, but then only interacts with one. The algorithm you have currently only checks two at a time, which is why simultaneous interactions of more than two bodies simply cannot happen, and it doesn't. Instead, those that are closer to the front of your ...

0

I'm sure this thread is long dead by now, but I just came across this issue and this was the closest that came to a solution.
I started with Dave's answer here, but I noticed that it wasn't really answering the poster's question. It wasn't dividing the ellipse equally by arc lengths, but by angle.
Anyway, I made some adjustments to his (awesome) work to ...

0

A universal type exists for all values of the type parameter(s). An existential type exists only for values of the type parameter(s) that satisfy the constraints of the existential type.
For example in Scala one way to express an existential type is an abstract type which is constrained to some upper or lower bounds.
trait Existential {
type Parameter ...

5

Try https://gumroad.com/l/RKxO
I purchased this database about 3 weeks ago for a book citation app I'm making. I haven't had any quality problems and virtually any book I scanned was found. The only problem is that they provide the file in CSV and I had to convert 20 million lines which took me almost an hour! Also the monthly updates are not delta and the ...

0

A POSIX process is like a thread that has a private memory space, so terminology used for processes might be appropriate. In the POSIX (Unix) world, the relationship between processes is described as parent and child. If process A creates process B, A is the parent of B, and B is the child of A.
Although more distant relationships are possible, they are not ...

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