it's important because some tweens of loaded edje group might use image sets
instead of images, so now making edje_edit API to work with them correctly
@fix
We've been pinning the render thread for every EFL process to core 0.
This is a bit silly in the first place, but some big.LITTLE arm systems,
such as exynos 5422, have the LITTLE cores first.
On those systems we put all the render threads on a slow core.
This attempts to fix that by using a random core from the pool of fast
cores.
If we can't determine which cores are fast (ie: we're not on a
linux kernel with cpufreq enabled) then we'll continue doing what we've
always done - pin to core 0.
libproxy allows various means to configure a proxy, will load from
gnome and kde configuration settings, envvars, macos and even windows
registry.
curl still doesn't use it, but we can make that later.
This test has been failing on Jenkins again and again. After adding the debug
a while ago it now shows that the value is between 0.01 and 0.02 in all cases
I have seen. Relaxing the timeout here a bit to make it pass in situation where
our CI is under load.
Summary:
as told in _eina_stringshared_key_cmp in eina_hash.c:
originally we want to do this:
return key1 - key2;
but since they are ptrs and an int can't store the different of 2 ptrs in
either 32 or 64bit (signed hasn't got enough range for the diff of 2
32bit values regardless of their type... we'd need 33bits or 65bits)
So changing this to the same logic.
Reviewers: tasn, raster
Subscribers: cedric, jpeg
Differential Revision: https://phab.enlightenment.org/D4298
if image object's first alpha value is false, evas_object_image_alpha_set function did not work.
opaque_valid is always 1 even though has_alpha value changed.
SOCKS is implemented in its own thread using synchronous/blocking
primitives, which simplifies the code a lot -- as well as simulate the
usage of Ecore_Thread as our users will likely do.
Since SOCKSv4a and SOCKSv5 allow name resolution, the whole
getaddrinfo() is done in the same thread, when needed, instead of a
separate thread to do that, which should also save some resources.
Instead of the legacy ECORE_CON_SOCKS_V4 and ECORE_CON_SOCKS_V5, now
we use socks_proxy, all_proxy and no_proxy. This matches our other
dialers http/websocket (which will use http_proxy, all_proxy and
no_proxy). If desired it's easy to add back support for those
variables, but I think we should just deprecate them. (The legacy code
will keep unchanged, thus direct users of ecore_con_server will still
use those -- just the previous users of ecore_con_server will be
converted to use the new API).
Document some proxy behavior like done by CURL, so we'll follow that
standard, with $http_proxy, $socks_proxy, $all_proxy and $no_proxy.
also add some missing @since.
we do not check any of success, failure or progress, so we must check
if they are valid before calling.
This fixed a bug in efl_net_dialer_tcp where it uses a null failure
cb and was SEGV.
Efl_Future actually work with weak reference. So you do not need to
set things to NULL, but you actually need to register the memory location
of the future with efl_future_use.
CPUs can be turned off after boot leading to a sparse mapping of core ids.
For example, if I turn off the first four cores on an exynos 5422 (these
are the low speed cores) then the high speed cores are still numbered 4-7
but there are only 4 cores present.
In that situation using affinity_core % num_cpus will prevent ever being
able to set affinity at all.
Just remove the pointless check and let the user set whatever core id they
want.
We've been pinning the render thread for every EFL process to core 0.
This is a bit silly in the first place, but some big.LITTLE arm systems,
such as exynos 5422, have the LITTLE cores first.
On those systems we put all the render threads on a slow core.
This attempts to fix that by using a random core from the pool of fast
cores.
If we can't determine which cores are fast (ie: we're not on a
linux kernel with cpufreq enabled) then we'll continue doing what we've
always done.
In a big.LITTLE ARM system cores can have different capabilities. This
gives an internal API that randomly returns the core id of any of the
system's fastest cores.
On systems where all cores are the same, it will return any available core.
If we don't have cpufreq support we just return 0
With MSYS1 or cygwin 1.5, or DOS console, the display is done by redirecting
stdout and al. So to change the colors, the Win32 API of the console must be
used.
On the contrary, the terminals based on mintty (like cygwin 1.8 terminal or MSYS2)
the redirection is done with pipes, so the Win32 API of the console does not
work when changing the colors and we can use the POSIX colors of printf.
This patch is fixing the eina code which alwayss use the Win32 API of the console
on Windows, even if mintty-based terminals are used
whenan eoid lookup fails, now print a lot of information on the issue
like the actual id, generation of the id, if its a class or object
(the class bit), if its ref or super bit is set, the actual id (which
includes the table heirachy), which thread id it is, what domain the
object id is and the current and local domains as well as what domains
are mapped in.
This would have forced who ever used future,none signal to manually
filter out event triggered by all the future beeing fullfiled and
disconnecting once they receive a value or are marked failed.
Some legacy functions that works with string paths were not redirecting for
the correct code when called with Elm.Fileselector.Button or
Elm.Fileselector.Entry.
This commit fixes this problem.
@fix
Fileselector test was waiting for the wrong event. It caused the test to
fail in some situations, since it could check the object when it is
not ready.
Fix T4502
@fix