* Instead of just configuring SPIR-V disassemblers and picking only the first
one when we need to edit SPIR-V, we allow setting up any shader processor that
goes between two shader encodings.
* When editing, the default will still be to use embedded source, and then after
that the first tool that goes from the native shader format to a text format,
but the drop-down allows you to pick any of them.
* Similarly in the shader viewer you can configure the compilation options and
method, to choose the compiler you want to use. Embedded command line
parameters in the shader are automatically appended.
* On windows, the change in a global GIT_COMMIT_HASH define in each
project needing it meant a full rebuild every time the commit changed.
* Ideally we'd set the define only on one file in each project, but
MSBuild doesn't seem to support that. Instead we make a new tiny
project that compiles a single cpp exporting a global var, and
reference that global var in each other project.
* These .py wrappers are relevant for the non-builtin path, but since we
use -builtin they serve no purpose except to make things more complex.
* So instead we make the module directly exported as 'module' instead of
'_module'.
* On windows there's no conflict because we have renderdoc.dll vs
renderdoc.pyd. On linux it's librenderdoc.so vs renderdoc.so.
* To prevent supporting files like .lib / .pdb from conflicting on
windows we build the python modules into a subdirectory. They're not
ever used by the UI (it links in the bindings directly).
* The UI dialog is now in Qt. We run qrenderdoc.exe with a very minimal
startup to display the dialog and send the report.
* The flow has been simplified to have less text and an easier time to
just click through and send.
* On the first report, the user is gently nudged to enter their email
address for contact and by default the email is saved for next time.
They're not nagged more than once about this.
* Optionally the user can select to upload the capture. This is always
default off, and there is a confirmation dialog making sure the user
intended to select it.
* After the bug is reported, a unique URL is generated and returned
which the user can then click back on to see if there's any update. By
default the UI will also remember the URL and check it every couple
of days and alert the user in the help menu that there's an update.
* This is a *very* light-touch analytics system that will track the
simplest and most anonymous statistics that can be useful in
determining which features are most used or perhaps underused, and
where it's best to direct development attention.
* It is entirely implemented in the UI layer, no analytics-gathering
code exists in the library that's injected into programs, and of
course no capture data (screenshots, resource contents, shaders, etc
etc) is transmitted.
* Once it's turned on, it will apply to both development and release
builds. It tracks stats over a month, and then at the beginning of a
new month it sends the previous data.
* When the user first starts up a build with analytics if there's no
previous analytics database then they are informed of the new code and
asked to approve it. They have the option of selecting to manually
verify any sent reports, or just opt-ing out entirely.
* In future one of the notes items would be for gathered hardware info.
Not automatically, but with one button press the full configuration
can be embedded.
* This allows a buidler to customise from e.g. /usr/lib/librenderdoc.so
to /usr/lib/renderdoc/librenderdoc.so - which is harmless since the
library is 'private' and not intended to be linked against directly.
* The idea is tha this style won't change the palette and will just do
some minimal additions/changes to whatever the native style is, to
work around some rough spots.
* Annoyingly although Qt has an internal bool allowUserMoveOfSection0
which does exactly what we want allowing the tree column to be
movable, we can't enable it because it's private. So instead we have
to re-implement section moving ourselves.
* Minor tweak - also made RDTreeWidgets non-movable by default since
usually we don't want to allow it.
* Added a couple of utility macros to help with the conversion. lit() is
paired with tr() for untranslated text.
* QFormatStr is more explicitly for non-textual formatting strings.
* Both are just #define'd to QStringLiteral()
* Note, this API is still in-flux and beta, so there may still be some
more changes before it's 'stable', and even then it will still be
subject to some amount of change.
* This API is then exposed to python via SWIG bindings and hides
internals that don't need to be visible, and means the actual API is
easier to work with.
* We also use this API to reduce inter-dependencies between different
windows that need to interact with each other at a high level.
* The naming is python/standard RenderDoc TitleCase method names, not
Qt style camelCase methods.
# Conflicts:
# qrenderdoc/Windows/PipelineState/D3D11PipelineStateViewer.cpp
# qrenderdoc/Windows/TextureViewer.cpp
* SWIG outputs two files - renderdoc_python.cpp with the main actual
wrapping code, and renderdoc.py a small module that does some
bootstrapping on python side.
* We use a custom version of SWIG that generates strong/typed enums in
python based on enum classes, so in cmake we add this custom swig
fork as an external project and compile it before generating the
wrappers. On windows there's a committed version of the SWIG binary
that gets run directly from the .pro or .vcxproj.
* The renderdoc.py gets embedded as a resource on windows or as a C
generated unsigned char array via include-bin on other platforms, so
that we can insert it into the python context without needing it to
sit around on disk somewhere in sys.path
baldurk