Same thing as dmabuf and GL texture builders. Preparation for adding
color state support to texture constructors.
As a bonus, we can now do update regions with memory textures.
... and plumb the color state through the downloading machinery, where
no matter what path it takes it ends up in
gdk_memory_convert_color_state() or gdk_memory_convert().
The 2nd of those has been expanded to optionally do colorstate
conversion when the 2 colorstates are different.
When a cache item is invalid, don't move it into the hash table.
Instead, just delete it.
Something like this could happen:
1. A texture is cached
In the case of #6867 this would be a webpage in epiphany.
2. The texture cache item is garbage-collected
For example, epiphany might switch to a new tab, and the previous page's
texture will remain. After 15s or so, we collect our item for that
texture.
3. The texture is cached again, but in the target colorspace
We now decide we need the texture again, but not in any colorspace, we
need it in the target colorspace. This might be because we run an
effect on it (like a crossfade) or because we want mipmaps (like in the
overview map, where its zoomed out).
4. The old invalid item is transitioned into the hash table
We now have an invalid item in the hash table. This is extra bad,
because it had only one reference (from the texture), but we treat it
like it has 2 (from us in the hash table and from the texture).
So depending on if the texture is freed before we reuse it, we get
different results: If it was free, we get invalid memory accesses, if it
was not freed, we treat it like a valid cache item and think the image
inside is still valid.
Fixes#6867
This happens when buffer creation fails in `get_dmabuf_wl_buffer()` and
we manually call `listener->release (data, NULL)`.
Fixes: 2478dd8322 ("subsurface: Split a function")
gsk_gpu_device_gc() may release the last ref on the GskGpuDevice,
leading to memory corruption when setting priv->cache_gc_source = 0.
Includes a bit of refactoring, so the ref/unref wraps nicely around the
actual code.
Fixes crashes seen after using the inspector and closing the window,
thereby closing all windows of a display and releasing all references to
the device.
Fixes#6861
This is a still experimental protocol (thus the xx prefix).
We are using it go obtain information about the compositors
preferred color state, and pass that on to our rendering machinery.
The currently supported color states are srgb, srgb-linear, rec2100-pq
and rec2100-linear. We don't have any support for ICC profiles.
Unlike other protocols, keep the support code for this protocol
fairly isolated behind wrapper objects, since the protocol is
still subject to change.
begin_frame is the place where we make decisions about the format,
depth and colorstate for our rendering. Make these calls take the
surface color state into account.
In particular, if the surface colorstate is suitable for GL_SRGB,
and we don't need high depth, set things up for that.
Change the glsl convert_color function to proceed in stages:
- first unpremultiply
- then linearize
- then transform linearly
- then delinearize
- then premultiply
All the steps are only taken if needed.
We only want to measure visible columns so that they may consume the
maximum width available to the widget. This fixes a situation where hidden
columns would cause less-than the whole width to be allocated. Additionally
that fixes warnings where some widgets expect more horizontal space than
they would ultimately be allocated.
The modern incantation to get validation layers enabled is via
VK_INSTANCE_LAYERS=VK_LAYER_KHRONOS_validation
Vulkan has a bunch of environment variables to toggle stuff, let's use
those instead of doing our own.
We need to make sure our clear values are in the right colorstate, not
in sRGB.
The occluision culling managed to sneak through the big transition for
that.
This is actually the node Loupe is using, so having tiling work with it
is important.
Because of the previous commit, different filters are supported fine.
Fixes: #6324
This allows mipmapping if downscaled a lot, like we do for non-tiled
images.
A side effect is that due to the simpler caching for tiles, we can only
cache the mipmapped images in one colorstate. But we need to pick a
potentially non-default one, because we want to mipmap in a linear
colorstate.
So this is somewhat suboptimal. Patches with improvements accepted.
Use the new cache feature to split oversized textures into tiles the
size given by the new device API.
Then number those tiles from left to right and top to bottom and use
that number as the tile id.
