This has lead to linker problems if the environment does have standard
versions of zlib/png (like from MSYS2), see discussion in referenced
issue
Closes#559
flatbuffers hard-code general -Werror, which led to builds failing on
clang 11.0.0-++20200307120047+01c48d7d11e-1~exp1~20200307110643.632
with a plethora of
../extlib/flatbuffers/include/flatbuffers/flatbuffers.h:1720:25:
error: definition of implicit copy constructor for
'TableKeyComparator<reflection::Object>' is deprecated because it has
a user-declared copy assignment operator [-Werror,-Wdeprecated-copy]
See:
https://github.com/solvespace/solvespace/issues/92#issuecomment-567831112
The problem was first introduced here:
dabd57847e
and later "fixed" here:
f324477dd0
by setting the stack size to /STACK:33554432
Solvespace now starts up even with /STACK:554432
According to this:
https://en.cppreference.com/w/cpp/language/value_initialization
```
"2) if T is a class type with a default constructor that is neither user-provided nor deleted (that is, it may be a class with an implicitly-defined or defaulted default constructor), the object is zero-initialized and then it is default-initialized if it has a non-trivial default constructor; "
```
So removing the `{}` should leave both the `System` and `TextWindow` class instances properly initialized.
A warning found with /W4 by MSVC 2019 (Microsoft (R) C/C++ Optimizing Compiler Version 19.24.28314)
is an actual bug. How does the SpaceMouse (I do not have one) work at all when the global `hSpaceWareDriverClass` is NULL?!
.\src\platform\guiwin.cpp(1392,34): warning C4459: declaration of 'hSpaceWareDriverClass' hides global declaration
.\src\platform\guiwin.cpp(1389,13): message : see declaration of 'SolveSpace::Platform::hSpaceWareDriverClass'
Found with /W4 by MSVC 2019 (Microsoft (R) C/C++ Optimizing Compiler Version 19.24.28314)
A bunch of implicit casts 'double' to 'float' and one 'int64_t' to 'unsigned'.
.\src\platform\guiwin.cpp(1237): warning C4701: potentially uninitialized local variable 'cursorName' used
.\src\platform\guiwin.cpp(1237): warning C4703: potentially uninitialized local pointer variable 'cursorName' used
.\src\solvespace.cpp(805,30): warning C4456: declaration of 'gs' hides previous local declaration
.\src\solvespace.cpp(715,17): message : see declaration of 'gs'
.\src\solvespace.cpp(849,47): warning C4456: declaration of 'e' hides previous local declaration
.\src\solvespace.cpp(847,29): message : see declaration of 'e'
.\src\render\render.h(288,51): warning C4458: declaration of 'camera' hides class member
.\src\render\render.h(271,17): message : see declaration of 'SolveSpace::SurfaceRenderer::camera'
.\src\render\render.h(289,57): warning C4458: declaration of 'lighting' hides class member
.\src\render\render.h(272,17): message : see declaration of 'SolveSpace::SurfaceRenderer::lighting'
Remove all files from snap that are already included in the base snap
or in any connected content snaps.
The main advantage is the massively reduced snap size:
From ~70 MB down to ~6 MB.
Snapcraft's remote-build does not fit the requirements of CI,
so replace it with builds running directly on Travis:
1. Builds on Travis can run independently, whereas remote-build
competes for the same resource (Launchpad) and will potentially
block if multiple commits require building in succession.
2. Snapcrafts CLI for remote-build is not designed to be easily
scriptable.
3. Travis recently introduced building on arm64, so builds for
arm64 are now very fast and don't require emulation.
We do not build for armhf and i386 any more because they are
of little relevance on the desktop.
dpl-snap only supports pushing one snap at a time.
Instead of many repetitive deploy statements,
we use our own script to loop over the snaps to be released.
We invoke builds on Launchpad in stage "deploy" and release it into
the edge channel of the Snap Store.
The deploy stage is blocked on fails of the test stage, so we don't
release snaps with failing tests.
It turns out that using cmake_policy(VERSION) is effectively same as
using cmake_minimum_required(VERSION) because it is a hard error
if the CMake running the script is too old. As such, replace 22525e65
with two changes:
* Set the minimum required version to 3.7.2 (Debian stretch),
which also configures policies.
* If CMake is at least as new as 3.11.0, then set the policies
according to that version.
This should actually have the intended behavior.
GetIdent is called from an UI event callback, at which point there
might well not be an active GL context. Before this commit, that
would return a NULL pointer and result in a crash.
- Fix invalid osx_image xcode8.2
- Drop depreceated sudo keyword
- Run debian build on bionic image & re-enable building with ui
- Split build into separate jobs & stages for better separation of concerns
Before this commit, certain fonts (e.g. Terminus) would appear in
the selector but cause a crash (assertion failure) if they are used.
After this commit, we make sure all preconditions are met before
showing a font there.
Also, improve error reporting to always print font filename.
This was originally changed in 74aa80b6, but the fix broke stipping
because it incorrectly changed the logic. Revert that, and just make
the textures smaller instead.
Before this commit, resizing the property browser would cut off
the rows at the bottom, or else add black space, until next refresh.
This could be perhaps more elegantly done by adding an onResize event
but given that each of them would be followed by onRender anyway, it
seems there's no benefit to adding onResize.
As I understand it, both glGetError() and glFinish() are serializing
and blockig, so it makes more sense to call them at the same time.
glFlush() does not block.
Since Catalina or earlier this no longer causes artifacts when Cocoa
controls are overlaid on a GL layer. Conversely, offscreen rendering
is very slow, especially on HiDPI screens.
Co-Authored-By: Koen Schmeets <hello@koenschmeets.nl>
When drawing the graphics window, we flush it twice: once to draw
the geometry, and another time to draw the UI overlay (toolbar,
selection marquee, and FPS counter). Calling glFinish() each time
is (on most platforms) just pointlessly slow, but on macOS Catalina,
without offscreen rendering, it causes the toolbar to flicker.
Instead of calling glFinish() twice per frame in that case, call
glFlush() twice and then glFinish() once we really are done.
Union and difference are optimized by replacing the expression
(!inShell && !inFace)
which is equivqlent to
(!inShell && !inSame && !inOpp)
with
outSide
which is equivalent, since SShell::Class::OUTSIDE is the only remaining possibility.
Per the OpenGL documentation:
> GL_INVALID_VALUE may be generated if level is greater than
> log2(max), where max is the returned value of GL_MAX_TEXTURE_SIZE.
Although we always passed `log2(max) + 1` as `level`, for some reason
none of the GL implementations we run on ever returned an error.
It also appears there is a bug in ANGLE that crashes the process
instead in this case if the C++ runtime performs bound checks on
vector::operator[]=.