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From: D103
Subject: Help with macro(s) for simulating weather patterns
Date: 9 Apr 2012 01:00:05
Message: <web.4f826c7218dbddf55ae2687f0@news.povray.org>
Hey everyone,

I'm working on a simulation of weather patterns for generating cloud maps;
http://forums.vega-strike.org/viewtopic.php?f=4&t=18030, so far I think I've hit
on the right concept, but I have trouble (as always) converting it from an idea
into pov format. ;)

I have some notes here; they set out what needs to be accomplished with what,
etc.

--------------------------------------------------------------------------------

Given a set of parameters.
    (Planetary rotation speed, rotation direction, planetary size, temperature
(average&local), image
    map, normal map, etc)
Take a series of samples corresponding to a 2:1 power-of-two resolution (eg.
512x256, 4096x2048), based on the parameters and a set of rules determining
where cloud can be "spawned", ie. no or little cloud near the equator (except at
high altitude), increasing to half way, with random disturbances based on
probability via the normal and image maps, and decreasing cloud as it approaches
the polar regions, to no cloud at an around the poles.

Placement and location of disturbances to be determined by a probability based
on proximity to water, any variations in altitude of the land, wind speed, and
temperature.

Rotation of disturbances to be determined by rotation direction and speed of
planet, as well as direction and distance from equator (ie. north rotates
opposite to south).

Notes: 1. For planets with very flat surfaces, (ie. Oceanic, Plains) the weather
patterns would be very regular and predictable; disturbances would regular also,
and occur mainly around the tropical regions. (tropical in this context refers
to the latitude, not the climate or flora/fauna)
       2. These functions/macros as set out here would be constrained to
low-medium level clouds, higher level clouds up to the upper regions of the
stratosphere would need to be calculated via a derivative of the macro, using
the original as a parameter.

--------------------------------------------------------------------------------

Not everything has been covered here, but currently I cannot think of anything
else. However, the main problem remains converting the ideas to pov-ray.

Any help/feedback/suggestion of any sort appreciated and welcomed. :D

D103


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From: D103
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 12 Apr 2012 06:05:01
Message: <web.4f86a799d5742bdd5ae2687f0@news.povray.org>
Just wondering, does nobody have any experience with this type of thing, or is
the general feeling maybe that I should do my own hard work? ;)

In any case, I'm doing my best, and shall upload the results (provided they are
worth it).

Also, when it's finished, I'll upload the macro(s) when they're done, I have a
feeling that other people may have a use for them. :)

D103


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From: Le Forgeron
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 12 Apr 2012 06:59:36
Message: <4f86b598$1@news.povray.org>
Le 12/04/2012 11:59, D103 nous fit lire :
> Just wondering, does nobody have any experience with this type of thing, or is
> the general feeling maybe that I should do my own hard work? ;)
> 

No real experience here. At best a notion that the atmosphere of earth
is split in "cell", or rather bands (5): around the equator, at the
poles, and midway. the boundaries moving with seasons. The most complex
bands being the midway ones, with Coriolis and other effects.
Pole are "simple": expend on light, contract on darkness.

Rain/clouds starting when hot wet air met colder area: either another
cell/band or due to the local geography (such as an island or a
mountain) or local albedo (rain forest is self-supporting, as long as
its wet and dark... once the wood is gone, expect Sahara desert-like and
no return: it could turn into Atacama)

Also, a bit particular: nearly constant circular winds around Australia
main mount.
Not found on the other side of the planet. (but looks like Jupiter's
stable whirl in south hemisphere)

I probably miss a lot of influences too.

> In any case, I'm doing my best, and shall upload the results (provided they are
> worth it).
> 
> Also, when it's finished, I'll upload the macro(s) when they're done, I have a
> feeling that other people may have a use for them. :)
> 
> D103
> 
>


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From: Thomas de Groot
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 12 Apr 2012 10:32:40
Message: <4f86e788$1@news.povray.org>
On 12-4-2012 11:59, D103 wrote:
> Just wondering, does nobody have any experience with this type of thing, or is
> the general feeling maybe that I should do my own hard work? ;)
>
> In any case, I'm doing my best, and shall upload the results (provided they are
> worth it).
>
> Also, when it's finished, I'll upload the macro(s) when they're done, I have a
> feeling that other people may have a use for them. :)
>
> D103
>
>
It looks quite exciting although it seems not easy to do to me. I 
suppose you do not want to emulate the super-computers that try to model 
the atmosphere ;-) but even so, there are so many complex parameters 
that I would wonder where to start. However, you seem to have some ideas 
and I am looking forward to some preliminary results. I suppose that 
would make it easier to discuss.

Thomas


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From: D103
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 16 Apr 2012 01:40:04
Message: <web.4f8bb03ad5742bdd5ae2687f0@news.povray.org>
Thomas de Groot <tho### [at] degrootorg> wrote:
> It looks quite exciting although it seems not easy to do to me. I
> suppose you do not want to emulate the super-computers that try to model
> the atmosphere ;-) but even so, there are so many complex parameters
> that I would wonder where to start. However, you seem to have some ideas
> and I am looking forward to some preliminary results. I suppose that
> would make it easier to discuss.
>
> Thomas

Exactly my reasons for posting. :) You are right, there are myriad parameters,
however I am trying to get away with as few as possible. ;)

Le_Forgeron <jgr### [at] freefr> wrote:
> No real experience here. At best a notion that the atmosphere of earth
> is split in "cell", or rather bands (5): around the equator, at the
> poles, and midway. the boundaries moving with seasons. The most complex
> bands being the midway ones, with Coriolis and other effects.
> Pole are "simple": expend on light, contract on darkness.
>
> Rain/clouds starting when hot wet air met colder area: either another
> cell/band or due to the local geography (such as an island or a
> mountain) or local albedo (rain forest is self-supporting, as long as
> its wet and dark... once the wood is gone, expect Sahara desert-like and
> no return: it could turn into Atacama)
>
> Also, a bit particular: nearly constant circular winds around Australia
> main mount.
> Not found on the other side of the planet. (but looks like Jupiter's
> stable whirl in south hemisphere)
>
> I probably miss a lot of influences too.

Yeah that's all generally correct, naturally there are other influences as you
said. Thing is though, not all the planets I will be doing cloud maps for are
Earth-like, otherwise I could simply use variations of Earth's, as the
developers of Vega-Strike have done wherever they can already. :)

Thanks for feedback/interest, :)

D103


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From: D103
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 16 Apr 2012 07:00:01
Message: <web.4f8bfafad5742bdd5ae2687f0@news.povray.org>
Ok, problems. :(

To generate a unique cloud map for each planet, I need to (among other things)
load the image map and normal map.

From these, I need to take samples along the x and y axis, and I don't know how
to do so. My first thought was the trace() function, but I don't know whether I
can get trace() to return the colour of the intersection.

Second problem, even if I can use trace(), this means that I have to have the
colour_maps in the scene in some form or another, and as the cloud_map is
partially transparent, this would mean that the other objects would appear in
the final render. :(

Perhaps I could get around this by using two scene files? Downside would be less
convenience, but if it's the only way...

Regards
D103


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From: Thomas de Groot
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 16 Apr 2012 07:29:08
Message: <4f8c0284$1@news.povray.org>
On 16-4-2012 12:56, D103 wrote:
> Ok, problems. :(
>
> To generate a unique cloud map for each planet, I need to (among other things)
> load the image map and normal map.
>
>  From these, I need to take samples along the x and y axis, and I don't know how
> to do so. My first thought was the trace() function, but I don't know whether I
> can get trace() to return the colour of the intersection.
>
> Second problem, even if I can use trace(), this means that I have to have the
> colour_maps in the scene in some form or another, and as the cloud_map is
> partially transparent, this would mean that the other objects would appear in
> the final render. :(
>
> Perhaps I could get around this by using two scene files? Downside would be less
> convenience, but if it's the only way...
>
> Regards
> D103
>
>
If I understand you correctly, I think you should use eval_pigment() 
instead of trace().

Thomas


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From: clipka
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 16 Apr 2012 08:37:03
Message: <4f8c126f$1@news.povray.org>
Am 16.04.2012 12:56, schrieb D103:
> Ok, problems. :(
>
> To generate a unique cloud map for each planet, I need to (among other things)
> load the image map and normal map.
>
>  From these, I need to take samples along the x and y axis, and I don't know how
> to do so. My first thought was the trace() function, but I don't know whether I
> can get trace() to return the colour of the intersection.
>
> Second problem, even if I can use trace(), this means that I have to have the
> colour_maps in the scene in some form or another, and as the cloud_map is
> partially transparent, this would mean that the other objects would appear in
> the final render. :(
>
> Perhaps I could get around this by using two scene files? Downside would be less
> convenience, but if it's the only way...

Remember that you need to pass a #declare'd (or #local) object to 
trace(). Note that trace() only probes this single object, and that this 
object isn't visible in the scene unless you also instantiate it with 
"object{MyObjectVariable}". You could use this to trace() a height_field 
of the image.

trace() is comparatively slow for your purposes though. Instead, a 
better alternative is probably to define a "pigment function", which you 
can then directly evaluate to retrieve the pigment's color at any given 
point. The "functions.inc" macro "eval_pigment" encapsulates this in a 
simple macro:

#macro eval_pigment(pigm, vec)
     #local fn = function { pigment { pigm } }
     #local result = (fn(vec.x, vec.y, vec.z));
     result
#end

You pass it the pigment and the point to be evaluated, and will get a 
color value. (This is one of the few exceptions where functions may 
return colors rather than scalars.)


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From: D103
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 16 Apr 2012 10:30:01
Message: <web.4f8c2bffd5742bdd5ae2687f0@news.povray.org>
clipka <ano### [at] anonymousorg> wrote:
>
> Remember that you need to pass a #declare'd (or #local) object to
> trace(). Note that trace() only probes this single object, and that this
> object isn't visible in the scene unless you also instantiate it with
> "object{MyObjectVariable}". You could use this to trace() a height_field
> of the image.

Of course, why didn't I realise that... *shakes head at himself*

Thanks :D

>
> trace() is comparatively slow for your purposes though. Instead, a
> better alternative is probably to define a "pigment function", which you
> can then directly evaluate to retrieve the pigment's color at any given
> point. The "functions.inc" macro "eval_pigment" encapsulates this in a
> simple macro:
>
> #macro eval_pigment(pigm, vec)
>      #local fn = function { pigment { pigm } }
>      #local result = (fn(vec.x, vec.y, vec.z));
>      result
> #end

That looks exactly what I want. Many thanks clipka :)

>
> You pass it the pigment and the point to be evaluated, and will get a
> color value. (This is one of the few exceptions where functions may
> return colors rather than scalars.)

Probably why I haven't heard of it. ;)

So, a good way to read an image would be something like this?

Identify the image to pov with a #declare or #local, whichever is appropriate.
Pull the x and y resolutions from it using a function (I know there's one around
somewhere, can't find it at the moment).
Use a nested loop to write the values from the image to a two dimensional array.

From there, it's a simple thing to determine if the point in question is water,
or if not, how close to water it is. If the planet in use has no surface water,
then it would be a simple thing to add an "eval_pigment" to the macro, with a
conditional value which returns true or false depending, thus saving
computational time. :)

Any flaws?

Thanks for your time.

Regards
D103


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From: Alain
Subject: Re: Help with macro(s) for simulating weather patterns
Date: 16 Apr 2012 17:48:04
Message: <4f8c9394@news.povray.org>

> clipka<ano### [at] anonymousorg>  wrote:
>>
>> Remember that you need to pass a #declare'd (or #local) object to
>> trace(). Note that trace() only probes this single object, and that this
>> object isn't visible in the scene unless you also instantiate it with
>> "object{MyObjectVariable}". You could use this to trace() a height_field
>> of the image.
>
> Of course, why didn't I realise that... *shakes head at himself*
>
> Thanks :D
>
>>
>> trace() is comparatively slow for your purposes though. Instead, a
>> better alternative is probably to define a "pigment function", which you
>> can then directly evaluate to retrieve the pigment's color at any given
>> point. The "functions.inc" macro "eval_pigment" encapsulates this in a
>> simple macro:
>>
>> #macro eval_pigment(pigm, vec)
>>       #local fn = function { pigment { pigm } }
>>       #local result = (fn(vec.x, vec.y, vec.z));
>>       result
>> #end
>
> That looks exactly what I want. Many thanks clipka :)
>
>>
>> You pass it the pigment and the point to be evaluated, and will get a
>> color value. (This is one of the few exceptions where functions may
>> return colors rather than scalars.)
>
> Probably why I haven't heard of it. ;)
>
> So, a good way to read an image would be something like this?
>
> Identify the image to pov with a #declare or #local, whichever is appropriate.
> Pull the x and y resolutions from it using a function (I know there's one around
> somewhere, can't find it at the moment).
> Use a nested loop to write the values from the image to a two dimensional array.
>
>  From there, it's a simple thing to determine if the point in question is water,
> or if not, how close to water it is. If the planet in use has no surface water,
> then it would be a simple thing to add an "eval_pigment" to the macro, with a
> conditional value which returns true or false depending, thus saving
> computational time. :)
>
> Any flaws?
>
> Thanks for your time.
>
> Regards
> D103
>
>

 From the documentations:

As of version 3.7 experimental support for reading the pixel resolution 
of an image map was added. This is done by giving an image map pigment 
identifier to max_extent(), which will then return the resolution of the 
image map as the x and y values of the returned vector.

Sample code:
#declare Image =
pigment {
   image_map {
     jpeg "YourImage.jpg"
     once
     }
   };

#declare Resolution = max_extent ( Image );

It return Resolution = <horizontal_size, vertical_size, 0>;



Alain


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