Lounge<C++>

johnathon

6:00 AM

@SethCarnegie remember when i said you should be using regions

Seth Carnegie

lol

ladiesMan217

so ------------>( ) ---k^2 rays-->

std''OrgnlDave

I'm not sure what the rationale here is, why you would do that in other words. what do you mean by "original reflected ray"

Seth Carnegie

@johnathon it's just seems weird that this isn't done every day

johnathon

WS_EX_TRANSPARENT
0x00000020L

The window should not be painted until siblings beneath the window (that were created by the same thread) have been painted. The window appears transparent because the bits of underlying sibling windows have already been painted.

To achieve transparency without these restrictions, use the SetWindowRgn function.

Seth Carnegie

6:01 AM

It seems like a sophisticated operating system such as Windows would easily support transparency

johnathon

@SethCarnegie it does, SetWindowRgn

ladiesMan217

In order to obtain glossy reflection, in addition to the antialiasing of the previous case, you use k^2
rays for each original reflected ray

Seth Carnegie

@johnathon how would that be used

@johnathon I don't see how it's different than setting the clip region or something

std''OrgnlDave

@ladiesMan217 your worst case is horrible. exponential on top of exponential

ladiesMan217

thats what it says..I called up my instructor to ask him clarify this and he says he is drunk lol

std''OrgnlDave

6:02 AM

roflol

instastar

ladiesMan217

he is the worst case instructor in my opinion lol

johnathon

@SethCarnegie question

Seth Carnegie

@ladiesMan217 lol worst case instructor

std''OrgnlDave

@ladiesMan217 so let's pretend we are a pixel. we shoot out a ray and determine an intersection with a point in space, p. so we try to see if we can see the first lightsource, l1

ladiesMan217

lets just "exponentiate" our worst case

johnathon

6:03 AM

@SethCarnegie now, the drawtext method is going to obscure the line a little bit, is that ok?

Seth Carnegie

@johnathon you mean the text will be outlined a little

johnathon

@SethCarnegie because i got it working i think the way you want

std''OrgnlDave

@ladiesMan217 our ray that we cast from p to l1 hits a reflective surface - let's call this p2

@ladiesMan217 p2 now needs to shoot out N_L rays (one to each light source)

where does k^2 come in here?

johnathon

@SethCarnegie yea, the drawtext is done after the line is drawn, so its going to paint over the line

ladiesMan217

So for each N_L ray that may reach p3

Seth Carnegie

6:05 AM

@johnathon I'd have to see it

ladiesMan217

there will be k^2 more rays from p3

std''OrgnlDave

so basically each reflective surface itself is antialiased

...

roflol

ladiesMan217

hahahahaha

Seth Carnegie

I don't get it

ladiesMan217

cs.washington.edu/education/courses/cse457/12sp/lectures/…

and go to "Reflection anti-aliasing"////

std''OrgnlDave

6:06 AM

so our current equation is (k^2 - antialiasing) * ((N^2 - pixels) * (N_L ^ d - lightsources to the power of tree depth))

k^2 * ((N^ 2) * (N_L ^ d))

johnathon

std''OrgnlDave

N_L ^ d is the part that deals with reflections

johnathon

@SethCarnegie see that?

Seth Carnegie

@johnathon yeah, that's a problem with TextOut though I think, isn't it?

ladiesMan217

my brain is full of fuck @stdOrgnlDave X_X

Seth Carnegie

6:08 AM

If I use DrawTextEx it shouldn't do that I think

ladiesMan217

lol

std''OrgnlDave

ugh, give me a minute

johnathon

@SethCarnegie yup, it is, take clip siblings out of your parent windows properties

ladiesMan217

so what you can reckon from the link I sent you

It has that particular case in it

Seth Carnegie

@johnathon siblings or children?

johnathon

6:08 AM

@SethCarnegie then anything you draw in the child will just draw over what the parent drew, effectively making it "transparent"

Seth Carnegie

OK sweet

johnathon

children dur

Seth Carnegie

how'd you get it working like that

ladiesMan217

@stdOrgnlDave CRT + F " Reflection anti-aliasing "

johnathon

@SethCarnegie HWND wnd = CreateWindowEx(NULL, "test_window", "test", WS_VISIBLE | WS_OVERLAPPEDWINDOW, 50, 50, 400, 400, NULL, NULL, hinst, NULL);

std''OrgnlDave

6:11 AM

@ladiesMan217 think I got it figured out, writing down reasoning

ladiesMan217

Thanks a lot pal . Whatever motivates you to help me, I need that potion :D

johnathon

@SethCarnegie is that what your after?

std''OrgnlDave

@ladiesMan217
n*n - for pixel buffer
n*n * N_L - each pixel needs N_L extra rays for lighting calculation
n*n * N_L ^ d - each N_L ray may intersect with a reflecting surface, each of which needs N_L more rays, to a limit of d intersections

each reflection point however needs to reflect k^2 rays. so, instead of N_L, we get (N_L * k^2) ^ d

in our lighting equation

k^2 * (n^2 * N_L^d) we substitute (N_L * k^2) ^ d, yielding

k^2 * (n^2) * ((N_L * k^2) ^ d)

corrected that

ladiesMan217

I was doing that same exact equation too...Makes me feel not so stupid following a drunk instructor :D

std''OrgnlDave

hehe

Seth Carnegie

6:14 AM

@johnathon I think so, I'm just seeing a few things

johnathon

@SethCarnegie the flickering requires double buffering in both the parent and child

Seth Carnegie

yeah definitely

std''OrgnlDave

@ladiesMan217 so how much worse does it get

johnathon

@SethCarnegie however, if thats the transparancy thing ya wanted to do , then yes, thats all you need to do to do that

ladiesMan217

well we know refraction is now "forever alone"

but not for long

he needs some dose of k^2 too

std''OrgnlDave

6:15 AM

"forever alone"?

I've treated refraction the same as reflection in these cases

johnathon

@SethCarnegie im sorry i had to think on it, it's been a minute sense i dident want to litterialy make a window inside a window to do anything other than divide up realestate on the main window

std''OrgnlDave

both are simply a redirection of the ray

ladiesMan217

In order to obtain not only glossy reflection, as in the previous
case, you also decide to implement translucent refraction by replacing each refracted ray by k^2 rays.

oh shit, did we not include refracted ray for our normal case without anti aliasing

?

std''OrgnlDave

@ladiesMan217 is there some reason that we should not have been making refraction and reflection equivalent?

ladiesMan217

Doesnt say that here

std''OrgnlDave

6:17 AM

refraction and reflection both simply change the direction of the ray

johnathon

@SethCarnegie also to note, if you disable the erase background message, it helps with the flickering

ladiesMan217

It says, if necessary, give multiple "sigma notations"

Seth Carnegie

@johnathon Yep, got it all working :D

you can use SetBkMode(hdc, TRANSPARENT) to get the background to not be gray

johnathon

@SethCarnegie good deal, now wheres your question post?

Seth Carnegie

let me find it

johnathon

6:18 AM

@SethCarnegie um.. Dude the background on my side is white

Seth Carnegie

1

Q: WM_EX_TRANSPARENT doesn't repaint child windows

I am using the WM_EX_TRANSPARENT window style on some windows in an attempt to do double-buffering with transparency. However, I am having a problem because when I do InvalidateRect on the parent window, the child windows are not redrawn. Is it the parent window's responsibility to iterate the c...

@johnathon well makes no difference

ladiesMan217

I can gurantee you @stdOrgnlDave that this is THE LAST case of this problem

std''OrgnlDave

@ladiesMan217 I'm not sure that it changes the case any, though

ladiesMan217

Yeah, I was wondering the same thing..

std''OrgnlDave

@ladiesMan217 wait what was the wording of the previous one?

the exact wording?

johnathon

6:21 AM

@SethCarnegie posted bro

ladiesMan217

you mean for the refraction case?

std''OrgnlDave

no the one just before it

ladiesMan217

) In order to obtain not only glossy reflection, as in the previous case, you also decide to implement translucent refraction by replacing each refracted ray by k^2 rays.

Seth Carnegie

@johnathon unfortunately it's only eligible for a bounty in two days, I will award you the 250 as promised whenever it lets me

ladiesMan217

I dont understand

Seth Carnegie

6:23 AM

if for some reason I forget then you can find me in here and remind me

ladiesMan217

"translucent refraction"????

Seth Carnegie

@johnathon oh no, make that one day

johnathon

@SethCarnegie it's cool

std''OrgnlDave

@ladiesMan217 no the one before that

johnathon

@SethCarnegie your company looking for help?

@SethCarnegie i could use some more work :))

Seth Carnegie

6:24 AM

Haha, if we ever have a position then I'll make sure to recommend you

ladiesMan217

"In order to obtain glossy reflection, in addition to the antialias-ing of the previous case, you use k^2
rays for each original reflected ray."

so when we implmented that k^2 for original viewing rays, we then came to the above case

for which you introduced (N_L * k^2) ^d

std''OrgnlDave

@ladiesMan217 oh crap, a refracted surface gives us both a refraction (translucent) and a reflection

ladiesMan217

yup....I was gonna add that too

std''OrgnlDave

so our old worse cases need to be updated, since a reflection now needs to be 2* in case it's a refraction

(N_L * k^2) ^ d for non-raytraced becomes 2(N_L * k^2) ^ d

stupid f*cking refractions bastards

ladiesMan217

hahahaha

btw, where are you from? if I may ask

std''OrgnlDave

6:29 AM

northeast USA

it's 2:30AM and I have stayed up to help you with this

ladiesMan217

oh..New England area?

I appreciate it man

std''OrgnlDave

if you had more rep I would ask you to post a question with a bounty lol

anyhow

knowledgeSeeker

hello people

ladiesMan217

hahah sorry, such questions dont get answered really quick and without additional chatting. But I will send you an invite on my further question regarding my next assignment.

Let me bookmark you

std''OrgnlDave

you need to go back to where we started worrying about reflections in our calculations and make *2

ladiesMan217

6:30 AM

wait what

std''OrgnlDave

let's go through a b c d e again

list each in order and I'll show the difference

ladiesMan217

okay

knowledgeSeeker

i have this problem... in which i want to optimize a program i've written

the problem is.. i am reading an input file

ladiesMan217

(a) "One viewing ray per pixel, ambient light only"

std''OrgnlDave

@knowledgeSeeker google on how to desyncrhonize STL files with C files

knowledgeSeeker

6:31 AM

the input file is 4096X4096 matrix of 1 byte integers

std''OrgnlDave

@ladiesMan217 (a) N^2

Seth Carnegie

@johnathon the child windows still flicker though even when I doublebuffer them (aside from having a non-transparent background) :(

ladiesMan217

(b) " One viewing ray per pixel, shadow rays for each of NL point
light sources, no reflection or refraction rays."

std''OrgnlDave

@ladiesMan217 (b) n^2 * N_L

Seth Carnegie

you've already been a lot of help though so if you need to leave then no problem

knowledgeSeeker

6:33 AM

normal read write (fscanf) takes me to around 2 secs for reading a file

i want it within 1 secs.. possible?

ladiesMan217

(c) One viewing ray per pixel, shadow rays as above, reflection and refraction rays to a maximum tree depth of d.

johnathon

@SethCarnegie cache your bitmap, call defwindow proc on your mem dc before you bitblit it back to the main dc, that will help with the flicker

Seth Carnegie

@johnathon ok

std''OrgnlDave

@ladiesMan217 before we had n^2 * (N_L ^ d) right?

Seth Carnegie

@johnathon the child windows still don't get the dc from the WPARAM though

johnathon

6:34 AM

@SethCarnegie also kill the wm_erasebackground, make darn shure windows dosent erase any background on ti

Seth Carnegie

it's just 0

ladiesMan217

yes

std''OrgnlDave

a reflection counts as 1 ray, but a refraction spawns 2 rays

Seth Carnegie

@johnathon yeah I'm just returning 0 in ERASEBKND

std''OrgnlDave

so the equation is n^2 * (2 * (N_L ^ d))

johnathon

6:34 AM

@SethCarnegie yea, no biggie, just do the same double buffering on it as you would the main window

ladiesMan217

I think in this case "refraction ray" is only talking about the one that transmits through

the object

std''OrgnlDave

if that's true then we don't need to modify our equations at all

do you see why?

a reflection spawns 1 new ray, a refraction spawns 1 new ray, they are equivalent

ladiesMan217

hmm..because again refraction gives only 1 ray

?

std''OrgnlDave

yep

ladiesMan217

ah yes

std''OrgnlDave

6:36 AM

unless refraction involves 2 rays, which it should, because refractive surfaces are shiny AND translucent

ladiesMan217

the Whitted Algorithm

check this

cs.washington.edu/education/courses/cse457/12sp/lectures/…

std''OrgnlDave

"When light hits a transparent surface, we not only see refraction, but we get a reflection off of the surface as well
Therefore, we will actually generate two new rays and trace both of them into the scene and combine the results
"

Seth Carnegie

@johnathon should I draw the child windows into the parent window's buffer?

ladiesMan217

If you are talking about refflection "inside the object" then this might be different

Seth Carnegie

I am caching and using dwp and it's still flickering quite badly

std''OrgnlDave

6:38 AM

no

ladiesMan217

Or are you talking of reflection on the surface? I.e, the reflection that is a counterpart of refraction

johnathon

@SethCarnegie let me see if i can smooth this out on my end a lilttle bit and i'll paste the code in pastebin for ya

std''OrgnlDave

@ladiesMan217 a refraction surface has both a reflection, and where light is bent through it, which means 2 rays. how do I explain this? :-\

ladiesMan217

haha no i get it

std''OrgnlDave

like water. if there's a shiny light on it you get a shine in your face, but you also get the light that has passsed thru the water and bent

ladiesMan217

6:39 AM

yes now i am enlightened

Seth Carnegie

@johnathon pastebin.com/p3skKQ6H

that's what I was doing

ladiesMan217

and so we have already accounted for that refection

std''OrgnlDave

so we modify (c) to be n^2 * (2 * (N_L ^ d)), the 2 accounts for refraction

ladiesMan217

Now I get it

Seth Carnegie

@johnathon just so you know you're not working for your bounty any more, you already have it so don't feel compelled to continue on

std''OrgnlDave

6:40 AM

let's do (d)

brb real quick

ladiesMan217

(d) "Multiple viewing rays per pixel (k^2). Other rays as in the previous case." :D

johnathon

@SethCarnegie it's cool man i don't mind helping ya nail this down

ladiesMan217

I dont know for the life of me why i put a smiley there

johnathon

@SethCarnegie is there any reason for the shadowed rectangle and the "polyline" in the code?

Seth Carnegie

@johnathon the rectangle was so there would be a white background and the polyline is to draw the line

so we can see if the background of the child windows repaints and is transparent, etc.

instead of just being the same color as the background of the main window or something that isn't real transparency

The first rule of C/C++ is that there is no such thing as "C/C++". — Kerrek SB 1 min ago

std''OrgnlDave

6:44 AM

@ladiesMan217 so for (d) we do k^2 * (n^2) * (2 * (N_L ^ d))

am I right?

its late lol

ladiesMan217

haha you are 100% right

std''OrgnlDave

ok (e)

ladiesMan217

(e) In order to obtain glossy reflection, in addition to the antialias-ing of the previous case, you use k^2 rays for each original reflected ray

std''OrgnlDave

this is whats stupid

it complicates things

our previous solution had ummm

ladiesMan217

i know coz now we need to discern between reflec component and refrac component

i think we can just add?

std''OrgnlDave

6:48 AM

yes, what was our previous answer to (e)?

no to add, what was our previous (e)

ladiesMan217

it was k^2 * n^2 * (N_L * k^2) ^ d)

std''OrgnlDave

so

now each reflection does k^2 more, so it is ((k^2 * (N_L ^ d)) + (N_L ^ d))
left = reflected, right = refracted

ladiesMan217

so in this case

bamboon

has somebody been to bitbucket today?

ladiesMan217

yes..i was gonna say adding...sorry i am bit new to this so when i see what i was thinking i feel me gusta

std''OrgnlDave

6:50 AM

me gusta?

ladiesMan217

like "fuck yea, my thoughts exactly"

Pubby

I wish SO did contests like Gaming does. I wanna win a T-Shirt for knowing useless C++ knowledge!

std''OrgnlDave

OK so our answer to (e) is k^2 * n^2 * ((k^2 * (N_L ^ d)) + (N_L ^ d))

left-hand of + is reflection, right-hand is refraction

ladiesMan217

where did the 2 go?

std''OrgnlDave

the *2 summed up the left-right which were equal before we figured out that refraction was 2 rays

ladiesMan217

6:52 AM

oh i see....

std''OrgnlDave

N_L^d + N_L ^d = 2 * (N_L^d)

ladiesMan217

oh i see

we segragated them and multiplied the k^2 component to the reflection

std''OrgnlDave

yep

ladiesMan217

so in (e) it asks for the same k^2 included for the refraction

or let me put it here

In order to obtain not only glossy reflection, as in the previous
case, you also decide to implement translucent refraction by replacing
each refracted ray by k^2
rays.

std''OrgnlDave

which makes it (k^2 * (N_L ^ d)) + (k^2 * (N_L ^ d))

reflection on the left + a refraction ray on the right

sum them up to simplify you get 2 * (k^2 * (N_L ^ d)) - the 2 comes back

k^2 * n^2 * 2 * (k^2 * (N_L ^ d))

:-(

following along?

ladiesMan217

6:56 AM

wait a sec

so in e

why didnt we do

std''OrgnlDave

someone star this line I did above: k^2 * n^2 * 2 * (k^2 * (N_L ^ d))

3

ladiesMan217

k^2 * n^2 * (N_L ^d)

johnathon

@SethCarnegie ok i've eliminated all flicker from the parent window

std''OrgnlDave

what was e again? is that the one we're on?

or are we on f?

johnathon

@SethCarnegie im going to use the same technique to eliminate the flicker from the child

ladiesMan217

6:57 AM

we are on f

std''OrgnlDave

OK

because we did (k^2 * (N_L ^ d)) + N_L ^ d

Seth Carnegie

@johnathon are you going to have to bitblt part of the parent's backbuffer into the child's and then paint on it and then bitblt the child's into its hdc?

std''OrgnlDave

left of plus sign is reflection, right is refraction

ladiesMan217

yes

and now

we do the same for both

std''OrgnlDave

yep

(k^2 * (N_L ^ d)) + (k^2 * (N_L ^ d))

johnathon

6:59 AM

@SethCarnegie dunno yet, im just going to double buffer the crap out of it and prevent cache the living heck out of everything