Summary:
Instead of surrounding all the #include "*.eo.h" lines in Efl.h
with #ifdef EFL_BETA_API_SUPPORT, include these files unconditionally, but mark
all classes as @beta in the eo files.
This will allow taking them out of beta one by one as we deem them stable enough.
Otherwise, the current procedure involves moving the #include line out of the
ifdef block, which is cumbersome and messes include order.
Depends on D7950
Fixes T7692
Test Plan: Nothing changes
Reviewers: zmike, bu5hm4n, cedric
Subscribers: #reviewers, #committers
Tags: #efl
Maniphest Tasks: T7692
Differential Revision: https://phab.enlightenment.org/D7951
display contains properties that are used to manipulate the display.
Range_step is a interactive property since it manipulates the way the
user interacts with this widget. This resolves a few unimplemented APIs.
ref T5719
Reviewed-by: Xavi Artigas <xavierartigas@yahoo.es>
Differential Revision: https://phab.enlightenment.org/D7715
Summary:
Efl.Ui.Layout namespace is removed to keep consistency with other
widgets.
Consequently, "Efl.Ui.Layout.Object" is renamed to "Efl.Ui.Layout" and
"Efl.Ui.Layout." is renamed to "Efl.Ui.Layout_".
Reviewers: segfaultxavi, bu5hm4n, cedric
Reviewed By: segfaultxavi
Subscribers: #reviewers, #committers, SanghyeonLee, woohyun
Tags: #efl
Differential Revision: https://phab.enlightenment.org/D7291
Reasons:
- This API has been confused with the min size of the widget, resulting
in badly laid out applications.
- The EO API was not very nice (Range is about numbers, the Gfx size
hint in a part is really ugly).
While I understand the value of this API and how it can be used in
scalable applications, it is in fact not absolutely necessary.
Alternatively to that span size, the widget min size can already be
defined from the application side, or the widget can simply be expanded
to fill in its parent.
This can obviously be reinstated later if the need arises for EO. For
now, keep this feature as legacy-only.
This is VERY tricky.
For legacy, just create an internal class that has both. It's easier
this way. For parts that are handled by Layout directly, we know from
Edje which type to return.
For EO objects we should know from the part name which kind of part we
are dealing with:
- text (overridden by the widget)
- content (overridden by the widget)
- special (new efl_part based functions)
- generic (handled by Layout)
Note: Efl.Ui.Slider was handling "span size" on ALL parts. That's bad...
This is now limited to "span" only.
This means that ALL part handles inherit from the base part class
Efl.Ui.Widget.Part. Layout is the only exception where Efl.Part is
specially overridden.
This is a first step towards generic part APIs, including background in
all widgets.
In Edje and Elementary, we have part objects, which are what is returned
by the interface efl_part(). Those objects can't be of an opaque type as
this doesn't work nicely with strongly typed languages such as C++ or
C#. In JS, Lua, C the types are weak and mostly runtime-based so it
doesn't matter much.
As a consequence, the documentation and the types need to look nice in
this EO API. Thus, we remove the abusive term "internal" and explicitly
call all those classes "part" something.
Eventually we want the types to be declared in the EO file so bindings
(C#, C++, ...) can generate the proper access methods, returning the
best possible types.
Note that right now a few of those part types are used in the legacy API
but don't actually need to be exposed externally.
This is kind of a mega commit that does all the renaming at once, but
it's really just a big sed operation. The power of good IDEs :)
Ref T5315
Ref T5306