I suspect we may change things more in the future as we blob's size
just be the visible rect but this is an incremental step in the right
direction.
It also includes some changes to make sure that we always update our
tiles appropriately.
Differential Revision: https://phabricator.services.mozilla.com/D37079
--HG--
extra : moz-landing-system : lando
I suspect we may change things more in the future as we blob's size
just be the visible rect but this is an incremental step in the right
direction.
It also includes some changes to make sure that we always update our
tiles appropriately.
Differential Revision: https://phabricator.services.mozilla.com/D37079
--HG--
extra : moz-landing-system : lando
This is the result of `cargo +nightly fix --all-features --all-targets`
using a recent rust nightly.
Depends on D33781
Differential Revision: https://phabricator.services.mozilla.com/D33782
--HG--
extra : moz-landing-system : lando
The gist of the problem I introduced with the framebuffer coordinate system is that we provided the window rect (effectively) twice:
1. when computing the document rectangle (and Y-inverting it)
2. when rendering
If between these points the window got resized (during scene building), we end up with our document aligned to bottom left corner.
The user expects content to still be aligned to the top left, so that's what is visible as a bug.
The change here switched scene building to only care about device coordinate space, restraining the framebuffer coordinates to be mostly
an implementation detail of the renderer/device (the way it was originally meant to be, when introduced). This way the current window size
is only considered once during rendering.
Differential Revision: https://phabricator.services.mozilla.com/D28731
--HG--
extra : moz-landing-system : lando
disclaimer: this isn't an *amazing* cleanup, but more of a major step that
unlocks the ability to do more minor cleanups and refinements. There's some
messy things and inconsistencies here and there, but we can hopefully iron
them out over time.
1. The primary change here is to move from
struct { common_fields, enum(specific_fields) }
to
enum (maybe_common_fields, specific_fields)
most notably this drops the common fields from a ton of things
that don't need them PopXXX, SetXXX, ClipChain, etc.
2. Additionally some types have had some redundant states shaved off,
for instance, rect no longer has *both* bounds and a clip_rect, as
the intersection of the two can be used. This was done a bit conservatively
as some adjustments will need to be done to the backend to fully eliminate
some states, and this can be done more incrementally.
2.5. As a minor side-effect of 2, we now early-reject some primitives whose
bounds and clip_rect are disjoint.
3. A HitTest display item has been added, which is just a Rect without
color. In addition to the minor space wins from this, this makes it much
easier to debug display lists
4. Adds a bunch of comments to the display list, making it easier to understand
things.
The end result of all these changes is a significantly smaller and easier to
understand display list. Especially on pages like gmail which have so many
clip chains. However this ultimately just makes text an even greater percentage
of pages (often 70-80%).
Differential Revision: https://phabricator.services.mozilla.com/D27439
--HG--
extra : moz-landing-system : lando
disclaimer: this isn't an *amazing* cleanup, but more of a major step that
unlocks the ability to do more minor cleanups and refinements. There's some
messy things and inconsistencies here and there, but we can hopefully iron
them out over time.
1. The primary change here is to move from
struct { common_fields, enum(specific_fields) }
to
enum (maybe_common_fields, specific_fields)
most notably this drops the common fields from a ton of things
that don't need them PopXXX, SetXXX, ClipChain, etc.
2. Additionally some types have had some redundant states shaved off,
for instance, rect no longer has *both* bounds and a clip_rect, as
the intersection of the two can be used. This was done a bit conservatively
as some adjustments will need to be done to the backend to fully eliminate
some states, and this can be done more incrementally.
2.5. As a minor side-effect of 2, we now early-reject some primitives whose
bounds and clip_rect are disjoint.
3. A HitTest display item has been added, which is just a Rect without
color. In addition to the minor space wins from this, this makes it much
easier to debug display lists
4. Adds a bunch of comments to the display list, making it easier to understand
things.
The end result of all these changes is a significantly smaller and easier to
understand display list. Especially on pages like gmail which have so many
clip chains. However this ultimately just makes text an even greater percentage
of pages (often 70-80%).
Differential Revision: https://phabricator.services.mozilla.com/D27439
--HG--
extra : moz-landing-system : lando
The change contains a number of incremental improvements with the main goal of:
- allocating exactly as many tile as required by the app
- respecting the picture caching option
Differential Revision: https://phabricator.services.mozilla.com/D24740
--HG--
extra : moz-landing-system : lando
The change contains a number of incremental improvements with the main goal of:
- allocating exactly as many tile as required by the app
- respecting the picture caching option
Differential Revision: https://phabricator.services.mozilla.com/D24740
--HG--
extra : moz-landing-system : lando
The cleans up our WR use statements further, easying the merge conflicts.
Note: this PR is subject to instant rot, it is preferred to land quickly.
Differential Revision: https://phabricator.services.mozilla.com/D23373
--HG--
extra : moz-landing-system : lando
The cleans up our WR use statements further, easying the merge conflicts.
Note: this PR is subject to instant rot, it is preferred to land quickly.
Differential Revision: https://phabricator.services.mozilla.com/D23373
--HG--
extra : moz-landing-system : lando
The goal of this change was to simplify the semantics of our document placement and split the logical elements inside (display list) from the actual screen rectangle occupied by a document.
To achieve that, we introduce the framebuffer space for things Y-flipped on screen.
We fix the frame outputs, so that they get produced on the first frame without loopback from the frame building to scene building.
Differential Revision: https://phabricator.services.mozilla.com/D21641
--HG--
extra : moz-landing-system : lando
The goal of this change was to simplify the semantics of our document placement and split the logical elements inside (display list) from the actual screen rectangle occupied by a document.
To achieve that, we introduce the framebuffer space for things Y-flipped on screen.
We fix the frame outputs, so that they get produced on the first frame without loopback from the frame building to scene building.
Differential Revision: https://phabricator.services.mozilla.com/D21641
--HG--
extra : moz-landing-system : lando
Change the external scroll offset to be a vector, rather than a
point. This can also be updated gecko-side in future, but for
now is converted to a vector at the API boundary.
Also plumb through the external scroll offset so that it is stored
inside the ScrollFrameInfo in a spatial node. This will allow
modifying the transforms that the clip-scroll tree creates to
take into account the external scroll offset in future.
Differential Revision: https://phabricator.services.mozilla.com/D21319
--HG--
extra : moz-landing-system : lando
The format for stacking contexts in the built display list goes from
PushStackingContext item
push_iter of Vec<FilterOp>
to
SetFilterOps item
push_iter of Vec<FilterOp>
1st SetFilterData item
push_iter of array of func types
push_iter funcR values
push_iter funcG values
push_iter funcB values
push_iter funcA values
.
.
.
nth SetFilterData item
push_iter of array of func types
push_iter funcR values
push_iter funcG values
push_iter funcB values
push_iter funcA values
PushStackingContext item
We need separate a SetFilterData item for each filter because we can't push_iter a variable sized thing.
When we iterate over the built display list to flatten it we work similarly to how gradients work with a SetGradientStops item before the actual gradient item. So when we see SetFilterOps or SetFilterData we use them to fill out values on the built display list iterator but don't those items return them to the iterator user and instead continue iterating until we hit the PushStackingContext item, at which point to the iterator consumer it appears as those the FilterOps and FilterDatas were on the PushStackingContext item. (This part is trickier too since we need a TempFilterData type that just holds ItemRange's until we get the actual bytes later.)
Do we need to clear cur_filters and cur_filter_data at some point to prevent them from getting ready by items for which they do not apply?
The format for stacking contexts in the built display list goes from
PushStackingContext item
push_iter of Vec<FilterOp>
to
SetFilterOps item
push_iter of Vec<FilterOp>
1st SetFilterData item
push_iter of array of func types
push_iter funcR values
push_iter funcG values
push_iter funcB values
push_iter funcA values
.
.
.
nth SetFilterData item
push_iter of array of func types
push_iter funcR values
push_iter funcG values
push_iter funcB values
push_iter funcA values
PushStackingContext item
We need separate a SetFilterData item for each filter because we can't push_iter a variable sized thing.
When we iterate over the built display list to flatten it we work similarly to how gradients work with a SetGradientStops item before the actual gradient item. So when we see SetFilterOps or SetFilterData we use them to fill out values on the built display list iterator but don't those items return them to the iterator user and instead continue iterating until we hit the PushStackingContext item, at which point to the iterator consumer it appears as those the FilterOps and FilterDatas were on the PushStackingContext item. (This part is trickier too since we need a TempFilterData type that just holds ItemRange's until we get the actual bytes later.)
Do we need to clear cur_filters and cur_filter_data at some point to prevent them from getting ready by items for which they do not apply?
The format for stacking contexts in the built display list goes from
PushStackingContext item
push_iter of Vec<FilterOp>
to
SetFilterOps item
push_iter of Vec<FilterOp>
1st SetFilterData item
push_iter of array of func types
push_iter funcR values
push_iter funcG values
push_iter funcB values
push_iter funcA values
.
.
.
nth SetFilterData item
push_iter of array of func types
push_iter funcR values
push_iter funcG values
push_iter funcB values
push_iter funcA values
PushStackingContext item
We need separate a SetFilterData item for each filter because we can't push_iter a variable sized thing.
When we iterate over the built display list to flatten it we work similarly to how gradients work with a SetGradientStops item before the actual gradient item. So when we see SetFilterOps or SetFilterData we use them to fill out values on the built display list iterator but don't those items return them to the iterator user and instead continue iterating until we hit the PushStackingContext item, at which point to the iterator consumer it appears as those the FilterOps and FilterDatas were on the PushStackingContext item. (This part is trickier too since we need a TempFilterData type that just holds ItemRange's until we get the actual bytes later.)
Do we need to clear cur_filters and cur_filter_data at some point to prevent them from getting ready by items for which they do not apply?