OK assuming it was angle then was radians...when I feed it to cos I don't need to convert it again to radians...so I can do cos(angle) because what I am doing is cos(angle*PI/180)
From this:
The pthread_cond_wait() and pthread_cond_timedwait() functions are
used to block on a condition variable. They are called with mutex
locked by the calling thread or undefined behaviour will result.
I understand the mutex should be locked when this function is being called, fr...
I'm not very familiar with pthreads, but from the code I think he's using the con_wait function wrong
@Nils The general way to do that is to use a map (which could be a hash table) to associate your callback with a C++ object. Then let the callback call a method on the C++ object. The object gives the further association to arbitrary (member) data.
@Nils If there can only ever be one callback then it's no problem. The association is then fixed at compile time. E.g., that the callback has a static data member.
@AlfPSteinbach I don't know exactly what you mean the function pointer to a method of return type void (w/o any arguments) will differ from that for just a function.
hiya all, xD I finally managed to understand how the allegro works. It was just a matter of scaling the angle.. And I also got the the canon to track the player once I understood that..
But what I still don't understand is the player cos and sin properties
the formula to calculate new x and y velocity/direction changes depending on the way the head of the ship is drawn...it is confusing...:(
For example. I had the bitmap initially at the angle of 0 degrees... But the ships mouth was facing up at 0 degrees...and because of that the formula to calculate direction vector was screwed
I managed to hazard a guess...then I tried another experiment..Make the ships heading face 0 degrees..the formula changed again! I had to make sin and cos negative to go down and positive to move up
@Nils Well, that's the general method. The main scenario is when the callback has an argument such as a window handle, that can be associated with a C++ object. But when there are no arguments it can be possible to associate the C++ object with the function itself (i.e. using function address as key), where the main idea then is to have a large number of identical functions, and choosing a unique such function for each object you need callback functionality for.
But also note, as I wrote, that it may be that no such association is needed. E.g., that you may simply use a static local variable in the function. Or in an anonymous namespace (or whatever).
I haven't used GLUT so I don't know about the details of your scenario.
Historically, Borland's ObjectWindows framework for Turbo/Borland Pascal, and possibly also the version for C++, used the associate-with-function-address idea. It generated the function stubs dynamically :-). I guess, today you will get both the OS and the anti-virus going ape if you try that, but it was very nice, and very efficient (like, maximally efficient).
@MrAnubis A proxy object represents some other object or thingy. For example, for a matrix class you may let operator[] return a proxy object, an object that represents a row of the matrix. Then operator[] on this proxy may return a reference to a given element in the row. Or, perhaps a proxy for that element! :-)
@MrAnubis Well, for example, in Windows you can create a COM object that really resides on another machine. Then what you get is not a pointer to that object (which is impossible). You get a pointer to a proxy on the local machine, where that proxy communicates via network with the real object on the other machine. This is a very special kind of proxy, one that pretends to directly be the object it represents. I think there's a special name for it, but I forget, sorry.
@MrAnubis This is a very philosophical question, on the question of personal identity. The short of it is, the "you" as of now is not the "you" as of 1 second ago. You're changing, all the time, and without any change you'd be dead or in stasis. So one aspect is how much you can change without losing identity. And another aspect is the short term fluctuations in what you find easy to remember or not. Which is context-dependent. I like "time flies like the wind, fruit flies like a banana"