always statically (you have to force it to build a dynamic library) the
resulting binary is redistributable.
The code is made ffmpeg-version independent using #ifdef's.
Here are my notes on things to look out for as potential problem
spots:
source/blender/blenkernel/intern/displist.c:
+ is initfastshade(void) supposed to be empty? I had
to make it empty to get the merged tree to compile.
source/blender/python/api2_2x/Armature.c:
+ went with the version that had Armature_getLayers()
source/blender/python/api2_2x/Object.c
+ went with the version of Object_getPose() from bf-blender.
(#ifdef 0-ed the other version)
source/blender/python/api2_2x/Pose.[ch]
+ had problems linking due to no Pose_Init() ... copied these
two files straight from bf-blender.
source/blender/src/drawview.c:
+ view3d_panel_properties() had things shifted a few things shifted
a few pixels, otherwise, things were painless
source/blender/src/splash.jpg.c:
+ went with bf-blender version (orange is dead)
source/gameengine:
+ went with bf-blender version -- does not compile due to IMB_rect* stuff,
Ton should look into this.
A full detailed description of this will be done later... is several days
of work. Here's a summary:
Render:
- Full cleanup of render code, removing *all* globals and bad level calls
all over blender. Render module is now not called abusive anymore
- API-fied calls to rendering
- Full recode of internal render pipeline. Is now rendering tiles by
default, prepared for much smarter 'bucket' render later.
- Each thread now can render a full part
- Renders were tested with 4 threads, goes fine, apart from some lookup
tables in softshadow and AO still
- Rendering is prepared to do multiple layers and passes
- No single 32 bits trick in render code anymore, all 100% floats now.
Writing images/movies
- moved writing images to blender kernel (bye bye 'schrijfplaatje'!)
- made a new Movie handle system, also in kernel. This will enable much
easier use of movies in Blender
PreviewRender:
- Using new render API, previewrender (in buttons) now uses regular render
code to generate images.
- new datafile 'preview.blend.c' has the preview scenes in it
- previews get rendered in exact displayed size (1 pixel = 1 pixel)
3D Preview render
- new; press Pkey in 3d window, for a panel that continuously renders
(pkey is for games, i know... but we dont do that in orange now!)
- this render works nearly identical to buttons-preview render, so it stops
rendering on any event (mouse, keyboard, etc)
- on moving/scaling the panel, the render code doesn't recreate all geometry
- same for shifting/panning view
- all other operations (now) regenerate the full render database still.
- this is WIP... but big fun, especially for simple scenes!
Compositor
- Using same node system as now in use for shaders, you can composit images
- works pretty straightforward... needs much more options/tools and integration
with rendering still
- is not threaded yet, nor is so smart to only recalculate changes... will be
done soon!
- the "Render Result" node will get all layers/passes as output sockets
- The "Output" node renders to a builtin image, which you can view in the Image
window. (yes, output nodes to render-result, and to files, is on the list!)
The Bad News
- "Unified Render" is removed. It might come back in some stage, but this
system should be built from scratch. I can't really understand this code...
I expect it is not much needed, especially with advanced layer/passes
control
- Panorama render, Field render, Motion blur, is not coded yet... (I had to
recode every single feature in render, so...!)
- Lens Flare is also not back... needs total revision, might become composit
effect though (using zbuffer for visibility)
- Part render is gone! (well, thats obvious, its default now).
- The render window is only restored with limited functionality... I am going
to check first the option to render to a Image window, so Blender can become
a true single-window application. :)
For example, the 'Spare render buffer' (jkey) doesnt work.
- Render with border, now default creates a smaller image
- No zbuffers are written yet... on the todo!
- Scons files and MSVC will need work to get compiling again
OK... thats what I can quickly recall. Now go compiling!
These should make it so that other people can compile with OpenEXR support.
(I also added the OPENAL fix erwin commited to bf-blender since I
need it for my machine, and this syncs up the file)
Kent
Armatures are back
Split screen
Double sided lightning
Ambient lighting
Alpha test
Material IPO support (one per object atm)
Blender materials
GLSL shaders - Python access
Up to three texture samplers from the material panel ( 2D & Cube map )
Python access to a second set of uv coordinates
See http://www.elysiun.com/forum/viewtopic.php?t=58057
so there will be more files following.
Anyway: NEW BOOLEANS from Google Summer of Code (Courtesy of Marc Freixas)
Known problems:
- Random freezes while using them as a modifier. This may not be directly
related to modifiers though - it's maybe just the huge number of
operations that leads to a higher probability of triggering a bug
- Static booleans (the first 3 entries in the WKEY menu) are borked
anyway, this is not due to this commit.
- Errors when exiting Blender (dupli_alloc stuff), is not related to this
commit, either.
Please test if everything works, and check the other build systems, I only
know that make works.
Also, compare the results of, say, cube-cylinder, in old and new booleans
:)
So for the 2.4 release, both bullet AND sumo will be enabled. You can choose in the world buttons which physics engine is active for a scene.
sorry if this breaks your builds!
to the Cygwin platform. This produced some silly error message about files
which haven't existed in the CVS repository for many months now. I can
remember seeing this message for at least a year and since it has *never*
changed I decided to investigate. Looks like unmaintained part of the
build system that nobody pays attention to but just in case I've left it
in tact with the following comment:
This code below seems outdated and doesn't even seem to apply to the
Windows platform. I've commented it out until someone can take a look at it
and confirm or deny. If it breaks anything blame Chris Burt / Desoto
Hopefully that's clear enough, but I really think this is a trivial change
and if after review nobody minds I'll simply erase the offending code.
To enable it you will need to download OpenEXR and install it.
For the Makefiles you will need to set WITH_OPENEXR=true
and set NAN_OPENEXR to point to where OpenEXR is installed.
For scons you'll need to remove config.opts to get the new options
so you can enable OpenEXR, I was not able to get blender to link
with scons so the scons stuff may need to be tweaked a little but
I think it should work.
For other platform managers The OpenEXR stuff is similar to QUICKTIME
you need to define WITH_OPENEXR and setup the library stuff and
as you'll notice in this commit there are two extra files.
Kent
Doing it the Kester way, but in a way that it actually compiles and links
for non-Kester people. >=P
(translation: FREE_WINDOWS now builds the stuff in extern and overwrites
the pre-compiled solid libs).
http://crd.lbl.gov/~xiaoye/SuperLU/
This is a library to solve sparse matrix systems (type A*x=B). It is able
to solve large systems very FAST. Only the necessary parts of the library
are included to limit file size and compilation time. This means the example
files, fortran interface, test files, matlab interface, cblas library,
complex number part and build system have been left out. All (gcc) warnings
have been fixed too.
This library will be used for LSCM UV unwrapping. With this library, LSCM
unwrapping can be calculated in a split second, making the unwrapping proces
much more interactive.
Added OpenNL (Open Numerical Libary):
http://www.loria.fr/~levy/OpenNL/
OpenNL is a library to easily construct and solve sparse linear systems. We
use a stripped down version, as an interface to SuperLU.
This library was kindly given to use by Bruno Levy.
the directories decrypt, deflate, encrypt, inflate, readstreamglue,
sign, writeblenfile and writestreamglue.
Sirdude was so kind to modify the makefiles, so SCons and
Make are ready to build with the new Blender.
Visual Studio workspaces, solutions and projectfiles still need
to be updated (I'll do the .vcprojs and .sln myself after this commit).
Runtimes created with the Blender Publisher are not anymore
recognised - if you want these available, you'll have to convert
them first to .blends with the Publisher.
as there is a conflict between openal and sdl (when compiled with cdrom
support), i had to disable support for cd playing using sdl on os x
for the time being.
or whatever):
NAN_NO_KETSJI: when set to true, disables compilation of the game engine.
NAN_JUST_BLENDERDYNAMIC: when set to true, only dynamic executable is
build (i.e., no plugin, etc).
Note that NAN_NO_KETSJI implies NAN_JUST_BLENDERDYNAMIC.
* In a previous commit, the following targets on Linux were commented out:
- plugin
- xplink
- blenderstatic
- blenderplayer
This commit uncommented those targets again.
Materials are exported the best we can do by now. It will look almost as in
blender except for the missing procedural textures and some minor issues.
You have to tweak normal modulation amount to get the desired result cause
is not the same in yafray.
We added a panel in render space to adjust some yafray settings (GI and so)
Also we export transparency and reflection using new raytracing settings,
but that will be changed and improved soon.
Remember that you have to set YFexport path in user defaults and yafray must
be on path (version 0.0.6)
We added the "yafray" button to activate all this stuff in the render window.
Panel and settings are only shown when checked.
So now when activated the code calls yafray export instead of the internal
renderer and finally the resulting image is loaded back into render window's
buffer. So animation is also possible and results can be saved using blender
usual scheme.
extern/ode/dist/ode/test/test_ode.cpp:
- Don't include <ieeefp.h> on sparc linux, it doesn't exist.
extern/ode/Makefile:
- While hacking on ode, get rid of that annoying infinite rebuild
source/Makefile:
- Define a default BINTARGETS (just blenderdynamic) for linux, individual archs
can override/add to that if they so please
source/nan_link.nmk:
- Add a sparc64 arch target to the linux section of nan_link.mk, using the same
options as powerpc
After the first ode problem, the build completed all but the linking of a
blender binary, because there wasn't any target defined!
On the rebuilding: The usersettings would have a newer date than targets
depending on it, so it would rebuild entirely. I haven't really fixed this, but
isolated it to the platforms where usersettings need to be moved around (darwin
and windows). FBSD patches the usersettings, so it might still happen there. I
didn't bother with a proper fix, as it looks like we're moving to scons soon.
I'm amazed no one got annoyed enough before to take care of this.
- the link order for Blender has changed, the libradiosity.a has to be moved after the librender.a (obviously for a new dependency!). Check blender/source/Makefile
- there's a new file: blender/source/radiosity/intern/source/radrender.c
Here's what the new code does:
Using the core routines of the Radiosity tool, each renderface with 'emit material' and each renderface with 'radio material flag' set will be used to itterate to a global illumination solution. Per face with high energy (emit) little images are rendered (hemicubes) which makes up lookup tables to 'shoot' its energy to other faces.
In the end this energy - color - then is directly added to the pixel colors while rendering, Gouraud shaded.
Since it's done with renderfaces, it works for all primitives in Blender.
What is doesn't do yet:
- take into account textured color of faces. Currently it uses the material RGB color for filtering distributed energy.
- do some smart pre-subdividing. I don't know yet if this is useful... Right now it means that you'll have to balance the models yourself, to deliver small faces where you want a high accuracy for shadowing.
- unified render (is at my todo list)
User notes:
- per Material you want to have included in radiosity render: set the 'radio' flag. For newly added Materials it is ON by default now.
- the Ambient slider in Material controls the amount of radiosity color.
- for enabling radiosity rendering, set the F10 "Radio" button.
- the Radiosity buttons now only show the relevant radiosity rendering options. Pressing "collect meshes" will show all buttons again.
- for meshes, the faces who use Radio material always call the 'autosmooth' routine, this to make sure sharp angles (like corners in a room) do not have shared vertices. For some smooth models (like the raptor example) you might increase the standard smoothing angle from 30 to 45 degree.
Technical notes:
- I had to expand the renderface and rendervertices for it... shame on me! Faces have one pointer extra, render vertices four floats...
- The size of the hemicubes is now based at the boundbox of the entire scene (0.002 of it). This should be more reliable... to be done
- I fixed a bug in radiosity render, where sometimes backfaces where lit
In general:
I'd like everyone to play a bit with this system. It's not easy to get good results with it. A simple "hit and go" isn't there... maybe some good suggestions?
Fixes build problems where (for example) plugin was to be made before the real
blender targets, and the entire build failed because of this missing directory.
It used to be so that nan_subdirs.mk made the output directory, but that relies
on DIR being correctly set, which is no longer the case.
* moved references to libSDL out of ifeq($(INTERNATIONAL), true) (win32)
and ifeq($(WITH_FREETYPE2),true) (irix) conditionals in source/Makefile
* look for sdl in $(LCGDIR)/sdl if sdl-config isn't found
thanks to LarstiQ for doing most of the work
all platforms. Please test on non-linux/non-irix.
- Changed another libsoundsystem.a to libSoundSystem.a.
- Removed comments refering to fmod (I assume it's not coming back ever)