1. nearest scaling is now broken - it's always linear interpolation. this
will lead to slowdowns. i need to fix this - a must.
2. i think it's time i put in a transformed image cache that can cache an
image object at a transform (and share it) automatically.
3. transforms in non-software-engines will not work - broken. need to at
least do xrender and gl engines.
any volunteers to help?
SVN revision: 37447
- some enignes break as they dont have the stubbed out functions, and
xrender/gl engines dont even implement the drawing and need to (but are
stubbed out).
SVN revision: 35677
* Allow Windows Mobile to correctly load dll's
* Use correct scheme for EAPI on Windows and include config.h when necessary
* add -mwin32 to compiler flags when compiling with cegcc
SVN revision: 34024
* use non deprecated version of AC_INIT and AM_INIT_AUTOMAKE
and check the required minimal versions.
* add bzipped distribution archive
* add AC_LIBTOOL_WIN32_DLL
* forbid libtool to check fortran
* compute libtool versioning from the version of the package
* pass the directories based on ${prefix} to the preoprocessor
with the -D option
* replace INCLUDES, wich is deprecated since 2001 by AM_CPPFLAGS
* remove useless -L flags in *_la_LDFLAGS
SVN revision: 32337
sometimes slower)
2. --enable-pthreads will enable multi-threaded rendering (current support is
for up to 4 threads so if you have a new fanled quad core or dual cpu dual
core box or whatever you will in theory be able to max moe of its cpu grunt
with the software rendering engine. this can only be done because i added the
pipelines which means almsot entirely lock-free multithreading internally in
evas. the only locks are for fonts but with a little work i might be able to
remove some/most of those too)
for now pthreaded rendering likely will be linux only (it relies on sched.h
for setting scheduler params to force the slave threads to run on separate
cpu's as linux likes to keep them on the same cpu otherwise and thus we get
no speedups at all - only slowdowns).
aso note that it is a bit of a mixed bag. complex ops (like smooth scaling
with alpha blending) get speedups, but simple ops (like blits/fills) slow down.
this all neds examination and tweaking still - but it's a start.
SVN revision: 27098
renderer gets threaded). if i thread at the simplest levels (low down in for
example the image scaler code - one of the most expensvie gfx routnes) on an
actual dual core system - performance drops by 40%. this just doesn't work
well at that level. thread creates and joins per render op are just a bad
thing (tm) :) so this really needs to go in much higher up and that presents
problems. :( i will need to clearly define entry and exit points to and from
threaded space (and thus all the locks) - remove all nested calls (where
internal code goes thru the same entry/exit points traditionally so it
deadlocks itself).. anyway - this here has all that code stripepd out i
played with - it is just the autofoo and build stuff so we can turn on/off
thread support at will in the build.
SVN revision: 26817
do NOT depend on order operation precedence. it broke scaling. laos other
completely bizarre mmx things were going wrong with mm7 ending up not 0 so
i've had to force it to be 0.
SVN revision: 18811
--enable gl, qtopia and directfb enigines - they are either incomplete, buggy
or simply used so little that its not worth building unless the user REALLY
wants the support.
SVN revision: 18424