The `name` member in the `_GLFWmonitorWayland` struct is used in two places. It is assigned the value from a variable of type `uint32_t` and is compared to another variable of type `uint32_t`, so `name` should also have the same type.
Closes#1569.
VS 2010 and MinGW are the two trickiest Windows environments so this
should hopefully catch more mistakes. This is probably not the right
way to set up any of this, but it works for now.
This is also a first step towards building our release binaries with CI.
[skip travis]
The `size` member in the `GLFWgammaramp` struct is of type `unsigned int`, so the `for` loop iterating over it should also use the type `unsigned int`.
Closes#1541.
The window rect adjustment for content scale broke the initial, correct
maximization performed when creating the window with WS_MAXIMIZE. This
switches to updating the restored rect instead of the current rect.
Fixes#1499.
Closes#1503.
When both GLFW_INCLUDE_VULKAN and VK_USE_PLATFORM_WIN32_KHR were
defined, the GLFW header would define replacement versions of APIENTRY
and WINGDIAPI /before/ including the Vulkan header, which would include
windows.h, which (justifiably) defines APIENTRY and WINGDIAPI blindly.
Fixes#1524.
For users with multiple keyboard layouts configured, glfwGetKeyName
works fine only with the primary layout. Switching layouts results in
changing the group index. This commit querries the current group index
when initializing keyboard input and keeps track of any change to it.
As a result the scancode -> keyname mapping may change while the program
is running (needs to be documented).
Fixes#1462.
Closes#1528.
MSVC 2019 complains that the code at line 1744
(`GetMonitorInfo(window->monitor->win32.handle, &mi);`) can potentially
dereference a null pointer. The compiler is wrong in this case (it has
not spotted that `monitor` and `window->monitor` must be equal), but
I think it makes sense for our non-NULL test to be on the variable we
actually use rather than the one it was set from.
Related to #1491.
The EWMH feature detection atoms are now named and loaded the same way
as other X11 atoms. Detection is now performed after all
non-conditional atoms have been loaded. The EWMH detection now has
hopefully more readable comments.
This will let higher-level projects override GLFW CMake options with
normal variables instead of having to use cache variables.
This means with CMake 3.13 and later you can now do:
set(GLFW_BUILD_TESTS ON)
add_subdirectory(path/to/glfw)
Instead of the more verbose:
set(GLFW_BUILD_TESTS ON CACHE BOOL "" FORCE)
add_subdirectory(path/to/glfw)
