I am trying to reduce the size of a list by choosing only the elements that i need. So basically i have a list of LineStrings and i am trying to check if the start node and the end node of a linestring can be found in another multilinestring. If yes i will keep the linestring, if not i will ignor...
It's been a long time. I dabbled with C++ over a decade ago, Fortran, RPG ][, COBOL in the late 80s. Pascal, Forth, Logo, BASIC back in the early 80s [All iterations of BASIC that I'm familiar with use line numbers] I've had some advanced DOS .bat files...
There are a lot of unanswered [batch-file] questions; Java is a high traffic tag, people vote up content easily, but only under the condition that you're faster than others to get out the answer, and it actually works.
Been great, moderating the site, hunting for good questions, wrote a self Q&A, earned some badges; did some code, chatting with users on chat stack overflow, etcetera.
int a,b,c,d,x,y;
i=iota;
^ not defined at this scope?
x=a+ib;
^ not defined at this scope?
y=c+id;
^ not defined at this scope?
x+y=z; // this is not a valid expression
z=(a+c)+iota(b+d);
// err.. no comment
System.out.println("Result is" +z);
There isn't one. Java has no builtin support (afaik) for complex numbers. (and no operator overloading, so it's not possible to make a convenient complex type by yourself)
The first thing that is needed is a class that implements the complex addition. Those can be written by yourself, or a ready made library can be used. I don't know your requirements
Lousy math support tends to come as standard whenever someone creates a new programming language. There may be support for the oddest things in the standard library, but not a trace of matrices (let alone complex numbers or quaternions).
But the docs says : Adds the specified element to this set if it is not already present. More formally, adds the specified element e to this set if the set contains no element e2 such that (e==null ? e2==null : e.equals(e2)
The current implementation uses equals, but that was not the case in some older versions. Current still requires that compareTo() i consistent with equals()
Anyway, the relevant part of put() does:
do {
parent = t;
cmp = k.compareTo(t.key);
if (cmp < 0)
t = t.left;
else if (cmp > 0)
t = t.right;
else
return t.setValue(value);
} while (t != null);
So it indeed does not use equals() there
TreeSet uses TreeMap, so Treemap is the interesting source
TreeSet.contains() just calls TreeMap.containsKey(); which as you said does not call equals() (the getEntry() it calls uses only compareTo())
The docs you referred was those of Set I presume? That contract is still held, if compareTo() is consistent with equals() (ie. returns 0 if, and only if the objects are equal as per equals())
In that sense it's not really all that different from HashSet. That too breaks spectacularly, if hashCode() is not consistent with equals()
instead of:
super(getnumPassengers(), getcolour());
call the superclass constructor like:
super(passengers, colour);
Those are parameters to the plane constructor, after all
(getnumPassengers() would not return anything sane at that stage - it would return 0; the default value of int, because the number of passengers has not yet been set)
the official java tutorial is a fine resource: docs.oracle.com/javase/tutorial . I don't know good it is at explaining the basics though. I jumped in from other languages so I just skimmed through the first steps
The original poster posted what looked like a typical homework dump question, but couldn't show his code for "security" reasons, since he worked for the Defense Department of some country.