Hello. If I made 2 functions: void f1(int a, int b) and void f2(void), would I be able to store both in an array like this: void (*fn[])(void) = {&f1, &f2}? Or would it have to be void (*fn[])()? Or are these both simply undefined behavior?

It seems that the former produces an incompatibility warning (and incorrect output) when using the former, but the latter "seems" fine.

Re-reading the repetitive format of the last sentence reminded me just now that I should get some more sleep.

@Byte could not say for sure, but that does not sound like a good idea. I guess compiler might complain about incompatible cast. But again, could not say for sure.

@Kamiccolo Are function arrays generally supposed to store functions that have the same number and type of arguments? Also (*fn[]() works but I don't yet understand why, hah.

Helloc all;

Hello

I am playing about with the first project euler problem and was wondering if there is a standard way, on a POSIX system, to compare two programs for efficiency? Code length and cpu cycles used for example.

I guess with experience we can become familiar with the best ways to do things, it would be great to have a bench mark.

Is this what is known as unit testing?

@Byte Have you read about function pointers?

In C, there are ways of measures the speed of your code, but I'm sure there are bash scripts available for testing other programs as well. This may be of interest >>http://stackoverflow.com/questions/5248915/execution-time-of-c-program

@iain I've read about function pointers, just haven't gotten used to using them, and not used to using typedef all that much for functions.

I worked through a simple example to help get an idea; to make a simple text choice menu where the list of choices is written by a loop with a function pointer; it helped me to get a basic feel for it.

I've done the same too, haha. I was just unsure about how the array storing different types of functions. The compiler messages can be confusing at times.

Humm, just runing this through my minds eye again; If I recall correctly there was no array.

I had written it with an array that stored several functions, and a int variable for user input. A switch statement would access the array's indexes and call the function.

This is probably bug-ridden but I haven't had enough time to experiment with function pointers in general.

I tell a lie; I used a static struct.

I wanted to use a struct too until I read that using an array was possible, and my mind was blown.

an array of structs ...

o_OOO

the advantage is then the ease with which a new menu option, and function, can be added to the code.

I'll have to try that tomorrow.

Have a good night everyone. Thanks for the help

Goodnight

goto play bows and arrows in the poring rain ; ... :(

Trouble with recursion. :(

@DrorK.

Trying to deal with a Tree in C.

I am at a branch A, and need to make A the right child of it's left child B.

This is perfectly doable, but then I try to assign A to B after copying A to the right-child of B.

This is so that A's parent will retain correct reference to the branch. However, it doesn't work right. Somewhere when freeing, a set-fault occurs.

IDK where, or why.

I guess if pointer X references A

And I set A to B

Then I have assigned to A the value of B, and not of X.

I cannot reach X though, It is further up the Tree and no reference exists.

So I need to somehow replace a value at A without invalidating X, which references A.

Yeah that is just not viable..

I made a workaround, but I do not want my Tree to be structured in this manner, so I won't keep it.

Does anyone know what clang stands for?

I thought it was C Language (compiler) or something silly, but I can't find what it actually represents.

Is there a generic name abbreviation for struct oriented strings, that consist of { char *s; size_t len; } ...?

If you were to write functions that expected such arguments... what corresponding names would you pick for things like: strlen(), strcmp(), strcpy(), etc?

@DrorK. bounded buffers?

Or bounded strings

@fge So: bounded_stringscmp() , bounded_stringscpy() ?

Why "s" in "scmp"?

Ah, "strings"

Well, I don't know, were it me I'd have created a static struct, say, BoundedStrings or BStrings and invoke with BStrings.cmp(), BStrings.copy(), etc

Or even compare() instead of cmp()

Or BStringOps.

BStrings.create(), BStrings.resize(), BStringOps.compare(), bla bla -- and the type would be called bstring

That is certainly not "conventional" C, that's for sure

@fge You would add function pointers to the structure?

Yes

@fge why?

helloc all;

Why not?!

@PeterVaro Morning. What do you suggest?

such a redundant design and wasting of space :)

@PeterVaro as I said; not conventional C :p

@DrorK. I suggest Str_ as a prefix

@PeterVaro redundant, maybe, but the intent is made clear

So you would call it "Str"?

there is no need to indicate the extra bound-checking, because normally, we would use str for simple char * which is not bound checked so the intention is pretty clear here

@DrorK. or String

Well, the intent is, here, I believe, to define bounds

and I would do: Str_cmp or Str_cpy

Anyway -- you have my opinion, now it's your choice :)

Hi guy/girls. What Im about to ask is not C related directly. But I figured C people would be my best at understanding this. Im trying to make a packet parser for a lidar. link to docs... Im really confused on how to traverse the packet. specifically, the not big endian not little endian format. See page 21 example packet. The hex is reversed in pairs or something like that. What am I looking at?

But my design is based on a simple principle: separation of concerns

@fge sure, but other than fake syntactic sugar (it is not really) you won't really have any advantage there, only disadvatages! btw: Str_cmp is not longer than Str.cmp, but it costs you extra space to store a pointer in every instance, and also costs you an extra redirection

@PeterVaro no, I have, quite the opposite, PLENTY of advantages

At runtime it makes no difference

But when you use the API, it makes a truckload of differences

"I want to manipulate the bstring itself? That's something in BStrings; I want to perform an operation on a bstring? That would be BStringOps"

Recall; code is WORM

my previous comment still stands :)

What, waste of space?

Oh, come on

BStringOps_operator() instead of BStringOps.operator()

I don't really care for space, but the idea that it would require 'initialization'... I don't like it

^ that's another thing to worry about

@DrorK. that would be a one time initialization anyway

Once it's done it's done

But again, that is how I would do it, I don't force you :)

@PeterVaro Now that question is, would you use the same structure for things other than strings?

@fge Dominion imposition is what we do best :)

well, let me give you an advice here @fge! if you don't want to overload the operator at runtime, you should make that "vtable" object a static one, created an initialized once the program started (that is, it lives at the "code-space"

that's exactly how types are implemnted in CPython for example

@PeterVaro but the goal is to have it static

`typedef struct BStrings { bstring create(size_t len); } = { .create = ... };

@DrorK. same as "ptr" and "len"?

err, that would be .create: ...

(IIRC)

yepp, that's exactly what I was suggesting

@PeterVaro Not sure what you're asking?

That isn't incompatible with what I said, is it?

still does not make any sense, but it is better than storing the pointer in every instance

That doesn't make any sense to you; to me it makes plenty of sense :p

Again, code is WORM

@DrorK. me neither (what you were asking, that's why I asked another question :))

@PeterVaro Are you a jew? :)

@DrorK. :D:D:D

(WORM, by the way, is Write Once, Read Many)

@PeterVaro My question is, would you feel comfortable using the same "String" struct for buffer-related needs?

@fge That's only under the assumption that you write things worth looking at

@fge also false then -- since it is not the traditional way of doing things, I would read that piece of code 4-5x times, before I realise what you really trying to do.. and maybe then I would refactor as the first step :P

@PeterVaro and that would mean that your code fails to begin with

Code which you have to re-read several times to understand what it does it a failure

exactly, that's what I'm trying to explain here :)

We agree on that part then; the only part we disagree on is the design to get there :p

Note that the M in Many applies to you and to others

But the O is you

ofc

anyway, what I suggest is, use a design pattern like this:

typedef struct
{
    // properties
} Type;

Error
Type_ini(/* args */)
{
    // initialization
}

Error
Type_fin(/* args */)
{
    // finalization
}

instead of this:

Fin? ... are we fish? ... what's happened to the good ol' free?

typedef struct
{
    // properties
} Type;

Error
Type_ini(/* args */)
{
    // initialization
}

Error
Type_fin(/* args */)
{
    // finalization
}

typedef struct
{
    Error (*ini)(/* args */);
    Error (*fin)(/* args */);
} _TypeMethods TypeMethods =
{
    .ini = Type_ini,
    .fin = Type_fin,
};

My design is quite the same except that your _ini and _fin would instead be function pointers in a same static struct that you would use; with the advantage that you can change the implementation in a MUCH easier fashion

@DrorK. I prefer the new -> ini -> fin -> del lifecycle methods

(that's a personal preference ofc)

Try a new implementation, change the pointer

@fge How your init is going to be within the struct?

as I said before @fge, it is not only longer, but if you are not willing to change the method during runtime, it is also pointless!

Well, the way that @PeterVaro wrote right above; except that I'd skip the _TypeMethods since it serves no purpose

@PeterVaro then what? Why do you even care? It's a question of design and maintainability

why do I care? because I like writing pure, simple, short and efficient code -- and I'm trying to encourage others to do the same :)

Remove "short" and you have my philosophy :p

;)

We can all agree on that, but neither of us is going to agree on what these values stand for

Ohwell, sorry, I don't have time to discuss this point any further, I have work to do :p

let's agree that we do not agree -- always works :)

@fge yeah.. well.. happy coding then :)

I also have to go shopping for the rest of the weekend..

though I really don't want to go outside..

:/

@PeterVaro Be ware of the monsters

Lurking in the shadows

I know.. they are everywhere!

Surprisingly, never found under anybody's bed

And what kind of a respectable monster is going to hide in a closet?

@PeterVaro Your "TypeMethods" convention... how exactly are you declaring a String?

(use case)

@DrorK. something like this:

typedef struct
{
    size_t  size;
    char   *data;
} Str;

Error
Str_ini(Str        *self,
        const char *data)
{
    // initialization
}

Error
Str_fin(Str *self)
{
    // finalization
}

@PeterVaro So what this is about? "Error (*ini)(/* args */);"

// first arg name can be self/this/instance, whatever..

@DrorK. Str_new would be all about allocation, while Str_del would be all about deallocation, Str_ini is all about initialization and Str_fin is all about finalization. Str_new calls Str_ini implicitly, while Str_del calls Str_fin implicitly

these 4 stages can be used, to create an object safely statically and dynamically

@PeterVaro Which implies that the init call can't be a member, so I'm not sure what @fge has suggested, or maybe it's inapplicable here

yeah, well, there are quite a few tricky methods out there if you go OO: constructors and destructors, copy functions, stringification, and the rest

What I suggested is that there were two different "operation structures", as I said earlier: one to manipulate "bstrings" themselves (init, destroy, etc), and another to perform operations on them

A classical separation of concerns :)

(I like to implement the following methods btw: new, ini, fin, del, new_copy, ini_copy, hash, cmp, bool, sput, fput, and if it is a collection/container: len, size, get, set, pop, push, pull)

(if you have these methods implemented, it is impossible for the user, to do something unsafe and stupid)

anywho, I'll bbl

The problem with your collection/container method is that you mix methods between stacks and fixed size, addressable collections

goto shopping; // and monster hunting

Defining the lifecycle of your "instances" is of course important

In C, you create them and have to dispose of them

Worth noting as well is that you can create overloads of methods

Argh, sorry, my Java background kicking it again

Not overloads

Functions with the same name but different signatures

@fge So you suggest to first declare the: struct String s; Then create it: String_create(&s); ... and then initialize it? s.init()?

Anyway, for instance: BStrings.withContents(char *) <-- supposes a nul terminated char *; BStrings.withCheckedContents(char *, ssize_t len) <-- at most len from a char *

Or BStrings.ofSize(ssize_t len) <-- nothing defined

Of course, nothing prevents .with*Contents() to delegate to .ofSize() internally, but the user, ultimately, does not care

@fge If you are a bear, how do you type with such large paws?

It's not a beat

bear

It's a Tasmanian devil

Well, you still have paws.

Oh you're right, that Tasmanian devil resembles more of a rat than a bear.

Hi Taz

Hi @Owatch

@Kotshi Hey.

What is up.

Nothing much

What about you?

Trying to figure out school work. :(

Have to write a 'parser' in C which can read in equations.

To be precise, I need to read in infix expressions and put them into a tree form.

Including parentheses and stuff, above operator precedence.

I do it recursively right now, and it works. But not for stuff wrapped in parentheses.

So like: x + x * x + x

Will be output as: ((x + (x * x)) + x)

But if I write: (x + x) * (x + x) it doesn't produce anything because I don't know what to do with '(', and ')'.