Looks good to me .. +1

-phil.

On 08/08/2016 12:48 PM, Alexander Scherbatiy wrote:

Just a friendly reminder.

Thanks,
Alexandr.

On 27/06/16 22:17, Alexander Scherbatiy wrote:

  Hello,

  Could you review the updated fix:
    http://cr.openjdk.java.net/~alexsch/8151303/webrev.02

The fix does not use a new public API to apply filters to multi-resolution images.

  Thanks,
  Alexandr.


On 14/05/16 02:54, Jim Graham wrote:
Another reason to avoid new API is that we don't have to involve the CCC to get this "bug fix" in...

            ...jim

On 5/13/16 3:50 PM, Jim Graham wrote:
That looks very tight. The only issue I'd have is that it would be better if this could be done with non-public API for now - the map() methods could live on one of the sun.awt.image classes or even in a Swing implementation utility class and still work just fine. When we have more time to figure out how we're going to handle filtering of MRIs in general
we can decide if this API should live on the base MRI interface.

The only thing we'd lose is BaseMRI having an optimized implementation of the map() method, but I don't think it's implementation represents enough of an optimization to matter when we are creating and loading dozens of images...

            ...jim

On 5/12/16 10:08 AM, Alexander Scherbatiy wrote:

Hello,

Could you review the updated fix:
  http://cr.openjdk.java.net/~alexsch/8151303/webrev.01

There was a suggestion to postpone the fix for the issue 8152309 Seamless way of using image filters with
multi-resolution images
and continue with the current one:
http://mail.openjdk.java.net/pipermail/2d-dev/2016-April/006766.html

The new version of the fix introduces a mapper method which allows to map all resolution variants of one
multi-resolution image to another:
------------
    Image image = // original image
Image filteredImage = MultiResolutionImage.map(image, (img) -> /* return filtered image */);
------------

Thanks,
Alexandr.

On 21/03/16 22:31, Jim Graham wrote:
We could do that for our own filters, but any random custom filter could run into the same issue, so it might not make sense to upgrade the existing filter mechanism to always attempt to do MR filtering. We could either create a parallel set of MR-aware filter mechanisms (such as the previously suggested new method on Toolkit, or a new MR-aware version of FilteredImageSource for instance) and leave the existing mechanism as clearly documented as MR-unaware. Another idea is to tag a filter with an interface that indicates that it is MR aware? In any case, some thought needs to be given to feeding an MR image to a filter that (potentially or demonstrably) cannot deal with MR images.

Alternately, we could then recommend that the old image filtering code isn't combined with multi-resolution images. It seems to me that the programmer is mostly in control over this happening since they've either manually created the MR image using the custiom MR image mechanism or they've supplied media with multiple resolution files (i.e. "@2x").
Is that really the case?

Whether it is a new filtering mechanism that must be adopted or simply declaring the old filtering mechanism as
"obsolete with respect to MR images"...

That recommendation then "restricts forward" in that, for example, since Swing relies on the old mechanism, Swing then becomes "not recommended for use with MR images", or "not MR aware". That's probably not a restriction we want to promote so it should be viewed as a temporary restriction reality and a bug that we'll fix soon, whether by using some other mechanism to achieve the desired affects, or creating a new MR-aware filtering mechanism and using it in Swing.

Similarly, other 3rd party libraries that accept images and do anything more than display them will have to be upgraded as well before they become "MR aware" or "MR accepting" or whatever term applies here...

            ...jim

On 3/21/16 8:54 AM, Alexander Scherbatiy wrote:

The one more thing is that image filters should also be updated to use
them with multi-resolution images.
For example, consider the case:
----------
     Image mrImage = getMultiResolutionImage();
     ImageProducer mriProducer = new
FilteredImageSource(mrImage.getSource(), new CropImageFilter(0, 0, w, h));
Toolkit.getDefaultToolkit().createImage(mriProducer);
----------

The crop image filter applied to each resolution variant just cuts
images with the same size.
It seems that there should be added API which allows to set a scale for a provided image filter to be properly used with the given resolution
variant.

I have created a separated issue for multi-resolution images filtering
support:
JDK-8152309 Seamless way of using image filters with multi-resolution
images
   https://bugs.openjdk.java.net/browse/JDK-8152309

Thanks,
Alexandr.

On 15/03/16 20:35, Alexander Scherbatiy wrote:
On 15/03/16 18:06, Sergey Bylokhov wrote:
On 15.03.16 17:01, Alexander Scherbatiy wrote:

  One update will be that FilteredImageSource should implement
MultiResolutionImageProducer even it is used for non multi-resolution
images.

The MRI can be created using two general ways: using fixed number of resolution variants or generating a resolution variant with necessary
quality on demand.

The current implementation is rely on that MRToolkitImage contains a fixed number of resolution variants. In this case MediaTracker can
iterate over resolution variants and load them all.

Using MultiResolutionImageProducer leads that MRToolkitImage will not
know about number of resolution variants in case when they are
generated
on the fly and there will be no way to load all of them by
MediaTracker.

Just an idea to thinking about, can we save this filter to the MRI itself and apply it after some resolution variant will be created on
the fly?

Do you mean that it helps to leave the code in the AquaUtils class
unchanged:
---------------
124 static Image generateLightenedImage(final Image image, final
int percent) {
125 final GrayFilter filter = new GrayFilter(true, percent);
 126         final ImageProducer prod = new
FilteredImageSource(image.getSource(), filter);
 127         return Toolkit.getDefaultToolkit().createImage(prod);
 128     }
---------------

or it is just an a better way for a filtered multi-resolution image
generation?

  Thanks,
  Alexandr.


As I see, the way to solve it is only using MRI.getResolutionVariants() method for the MultiResolutionImageProducer creation. So the result of
the call
toolkit.createImage(new FilteredImageSource(mrImage.getSource(),
filter));
will be a MRToolkitImage which is based on fixed number of filtered
resolution variants from the original MRI.

  Thanks,
  Alexandr.

...jim

On 3/11/16 5:42 AM, Alexander Scherbatiy wrote:
On 09/03/16 16:58, Sergey Bylokhov wrote:
Probably we should enhance
ImageProducer/Tk.createImage/ImageFilter to
support this functionality? It seems that the number of usage of
this
check "image instanceof MultiResolutionImage" will grow over time.
ImageProducer produces pixels for an image and is not able to
take
an information about the image resolution variants.

May be we can add Toolkit.createImage(Image image, ImageFilter imageFilter) method which takes MultiResolutionImage into account to
cover the common case where filtered image is created.

  Thanks,
  Alexandr.
I think that at least our own API should support
MultiResolutionImage
w/o such checks, otherwise the user will need to do the same.

cc 2d-dev

On 09.03.16 15:30, Alexander Scherbatiy wrote:

Hello,

Could you review the fix:
   bug: https://bugs.openjdk.java.net/browse/JDK-8151303
webrev: http://cr.openjdk.java.net/~alexsch/8151303/webrev.00

The AquaUtils does not take into account MultiResolutionImage
for
selected/disabled/lightened images generation.
The fix also leaves the MultiResolutionCachedImage check because
the
base system icon size can be differ from the requested painted
size.

   Thanks,
   Alexandr.












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