World: r3wp
[!REBOL3]
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Graham 16-Jul-2010 [3705] | couldn't browse to any of the rebsites |
Henrik 16-Jul-2010 [3706x2] | same here for the past 10 hours at least. |
working again now. | |
DideC 16-Jul-2010 [3708] | YEs |
Carl 16-Jul-2010 [3709] | Ok, so there are going to be some issues about PAIR's that need discussion! |
Steeve 16-Jul-2010 [3710] | more than those you already noted ? |
Carl 16-Jul-2010 [3711x2] | First, the math side of PAIRs as floats works out quite well. However, there are some issues when converting to and from pixels, which are "quantized" as integers. For example, now that: >> 101x101 / 2 == 50.5x50.5 what is the size of this image: >> make image! 101x101 / 2 ? |
Steeve, remind me, where did I note them? | |
Steeve 16-Jul-2010 [3713x2] | You posted something on y |
You just posted something on your blog... | |
Carl 16-Jul-2010 [3715x2] | And more interesting... tell me the sizes of these images: img1: make image! 1.4x2.8 img2: make image! 1.000001x2.999999 So, if you understand floating point, you see where I am going with this, no? |
Perhaps Ladislav can bring some insight to this issue? | |
Ladislav 16-Jul-2010 [3717] | yes, right, there is even some code assuming, that rounding occurs automatically, which ceases to be true... |
Steeve 16-Jul-2010 [3718x2] | yep I see |
and a round/half-ceiling is not good ? | |
Ladislav 16-Jul-2010 [3720x2] | the ceiling operation may be more reasonable than truncation for image dimensions |
...but I do not have too strong preferences | |
Maxim 16-Jul-2010 [3722] | I'm used to the truncation, though ceiling would work out too... the only thing I'm not keen on is round/half-ceiling :-) |
Ladislav 16-Jul-2010 [3723] | in such "unclear" cases it may be even possible to require the user to submit "integral coordinates", I suppose you know what I mean? |
Maxim 16-Jul-2010 [3724] | ceiling would probably provide less bugs, since we don't end-up with zero values which are evil in division. |
Ladislav 16-Jul-2010 [3725] | integral?: func [x [number! pair!]] [zero? x // 1] |
Carl 16-Jul-2010 [3726] | Maxim, the problem is that the computation can vary + or - by the floating point precision of the full expression, so ceiling is not correct either. |
Maxim 16-Jul-2010 [3727] | Q will pairs *always* be floating point? |
Carl 16-Jul-2010 [3728x2] | Yep. |
In general, they work out nicely. But these edge cases must be solved. | |
Maxim 16-Jul-2010 [3730] | hum... it would be nice for pairs to stay integer until they are cast into floating points... I can see many accumulation errors cropping up which will make sizing very hard to be pixel precise. |
Carl 16-Jul-2010 [3731x2] | But, of course, the reverse is also true. |
Currently, I think for sizing we must define and document it. To me, there is no perfect answer, but perhaps just doing a simple round is best, as long as everyone knows that rule. | |
Maxim 16-Jul-2010 [3733] | yes, but for the dimension aspect, specifically the largest accumulated edge, for example may accumulate errors. when people start Adding up values and then multiplying them... I've had my share of headaches in 3D with this. |
Carl 16-Jul-2010 [3734] | Advanced coders who are using more complicated algorithms must make adjustments anyway, so they can force the ceiling if needed. |
Ladislav 16-Jul-2010 [3735] | But, yes, rounding is continuos where it matters the most and discontinuous where it matters the least |
Maxim 16-Jul-2010 [3736x2] | if I'm forced to use rounding on the rebol side very often, I think I'd rather have a tiny overhead in the native datatype that tries to stay integer until a result forces it. exactly like integer math which returns decimals when it must: >> 4 / 2 == 2 >> 4 / 2.0 == 2.0 >> |
and a new float-pair! datatype is complicated to support in addition to an integer pair? | |
Carl 16-Jul-2010 [3738] | Not really worth it. Would create even more problems. |
Maxim 16-Jul-2010 [3739x2] | it would really be nice if the datatype had a little state which allowed it to be integer or float and call appropriate math based on this... but I have no idea how this math is managed internally, so cannot easily grasp how complex or how this would affect speed. |
it might also complicate the extension part of things I guess. | |
Steeve 16-Jul-2010 [3741] | clearly |
Gregg 16-Jul-2010 [3742] | perhaps just doing a simple round is best, as long as everyone knows that rule. That sounds good to me. The ky point being that we know the rules. Simple ROUND may not be the best choice for graphics, but I'll defer to those with more experience in that area. |
Gabriele 17-Jul-2010 [3743] | IMHO, there are two options: 1) require "integral" values (as Ladislav says) for certain things like make image! etc., producing an error when they are not, and let the user use ROUND; 2) always use floor or ceil or even round, but make sure people know (ie docs). |
Ladislav 17-Jul-2010 [3744] | The ROUND option looks to have prevailed |
Carl 17-Jul-2010 [3745x4] | Update: The go.r test code is now running properly in A101 with the fully converted PAIR datatype and changes to the AGG API to accept both pairs and gobs using float values. It turns out that because AGG wants floats for most spatial values anyway, the PAIR change makes the code smaller and faster. Certainly more can be done to minimize the interface to AGG now (removing the double trampoline within the API) but that's a project for Cyphre when he returns from the islands ;) |
In addition, I should note that all functions that require integral PAIR! fields now perform an internal round to "snap" them to nearest integers. This applies not just to things like image size specs, but also to values like image pixel index pairs (something we support, but not often done, AFAIK) | |
The biggest issue in this PAIR change is that of comparison... such as in equality and zero tests. I plan to make the same rules apply as those for DECIMAL! -- but this will require more design work. | |
For example, a pair may have a value that is *almost* zero, but not *really* zero. "You know the drill." | |
Steeve 17-Jul-2010 [3749] | Thanks Carl. Though for AGG, I don't expect a lot (in term of speed gain). IMHO, the main overhead comes from the involved arithmetic using floating point decimals. Matrix computations are costly with floating numbers. But The final rasterization uses fixed point decimals and floats could have been avoided, i guess. So maybe there is a major room improvement here. |
BrianH 17-Jul-2010 [3750] | Round half up, round half out, round half even, or round half odd? |
shadwolf 17-Jul-2010 [3751x3] | Carl you have a point there ... pair! are used mostly related to VID .... and as pairs in fact represents a pixel matrix you have dot something numbers |
CARL ONE ASK CAN AGG BE MERGED WITH AMD/ATI OPEN CL Technology ? ( some thing like a background application that would detect what hardware you have and use multi hardware CPUs GPUs to run those expensive task. Once again what in rebol can be an very expensive task .... answer a state of art webbrowser rendering engine with flash silverlight support.... IF we can bring rebol to that state i think no one will look at it as a toy ... then the question is way doing a webbrowser in rebol ? REply is because i love rebol :). But on a ground level if you want to enter in competition with the other languages and prove the interrest of the rebol method then you have to be able to do what the others can do ) This open CL adition can too benefits non graphical applications i don't know how but why not saying look rbeol is not dead it's the futur and as the futur it provides the best way to use the futurs technology. And that's a field none of hte interpreted languages now in day have done ... | |
one last request i'm almost blind can someone make this font bigger thank you ... | |
Graham 17-Jul-2010 [3754] | Shadwolf, Little Red Riding Hood remarked that the grandmother's eyes were very big! |
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