bsnes/hiro/cocoa/monitor.cpp

59 lines
1.4 KiB
C++
Raw Normal View History

#if defined(Hiro_Monitor)
namespace hiro {
auto pMonitor::count() -> uint {
@autoreleasepool {
return [[NSScreen screens] count];
}
}
Update to v104r13 release. byuu says: Changelog: - nall/GNUmakefile: build=release changed to -O2, build=optimize is now -O3 - hiro: added Monitor::dpi(uint index) → Position [returns logical DPI for x, y] - Position is a bad name, but dpi(monitor).(x,y)() make more sense than .(width,height)() - hiro: Position, Size, Geometry, Font changed from using signed int to float - hiro: Alignment changed from using double to float - hiro: added skeleton (unused) Application::scale(), setScale() functions Errata: - hiro/cocoa's Monitor::dpi() is untested. Probably will cause issues with macOS' automatic scaling. - hiro/gtk lacks a way to get both per-monitor and per-axis (x,y) DPI scaling - hiro/qt lacks a way to get per-monitor DPI scaling (Qt 5.x has this, but I still use Qt 4.x) - and just to get global DPI, hiro/qt's DPI retrieval has to use undocumented functions ... fun The goal with this WIP was basically to prepare hiro for potential automatic scaling. It'll be extremely difficult, but I'm convinced that it must be possible if macOS can do it. By moving from signed integers to floats for coordinates, we can now scale and unscale without losing precision. That of course isn't the hard part, though. The hard part is where and how to do the scaling. In the ideal application, hiro/core and hiro/extension will handle 100% of this, and the per-platform hiro/(cocoa,gtk,qt,windows) will not be aware of what's going on, but ... to even make that possible, things will need to change in every per-platform core, eg the per-platform code will have to call a core function to change geometry, which will know about the scaling and unscale the values back down again. Gonna be a lot of work, but ... it's a start.
2017-09-08 06:06:21 +00:00
auto pMonitor::dpi(uint monitor) -> Position {
//macOS includes built-in HiDPI scaling support.
//it may be better to rely on per-application scaling,
//but for now we'll let macOS handle it so it works in all hiro applications.
#if 0
Update to v104r13 release. byuu says: Changelog: - nall/GNUmakefile: build=release changed to -O2, build=optimize is now -O3 - hiro: added Monitor::dpi(uint index) → Position [returns logical DPI for x, y] - Position is a bad name, but dpi(monitor).(x,y)() make more sense than .(width,height)() - hiro: Position, Size, Geometry, Font changed from using signed int to float - hiro: Alignment changed from using double to float - hiro: added skeleton (unused) Application::scale(), setScale() functions Errata: - hiro/cocoa's Monitor::dpi() is untested. Probably will cause issues with macOS' automatic scaling. - hiro/gtk lacks a way to get both per-monitor and per-axis (x,y) DPI scaling - hiro/qt lacks a way to get per-monitor DPI scaling (Qt 5.x has this, but I still use Qt 4.x) - and just to get global DPI, hiro/qt's DPI retrieval has to use undocumented functions ... fun The goal with this WIP was basically to prepare hiro for potential automatic scaling. It'll be extremely difficult, but I'm convinced that it must be possible if macOS can do it. By moving from signed integers to floats for coordinates, we can now scale and unscale without losing precision. That of course isn't the hard part, though. The hard part is where and how to do the scaling. In the ideal application, hiro/core and hiro/extension will handle 100% of this, and the per-platform hiro/(cocoa,gtk,qt,windows) will not be aware of what's going on, but ... to even make that possible, things will need to change in every per-platform core, eg the per-platform code will have to call a core function to change geometry, which will know about the scaling and unscale the values back down again. Gonna be a lot of work, but ... it's a start.
2017-09-08 06:06:21 +00:00
@autoreleasepool {
NSScreen* screen = [[NSScreen screens] objectAtIndex:monitor];
NSDictionary* dictionary = [screen deviceDescription];
Update to v104r13 release. byuu says: Changelog: - nall/GNUmakefile: build=release changed to -O2, build=optimize is now -O3 - hiro: added Monitor::dpi(uint index) → Position [returns logical DPI for x, y] - Position is a bad name, but dpi(monitor).(x,y)() make more sense than .(width,height)() - hiro: Position, Size, Geometry, Font changed from using signed int to float - hiro: Alignment changed from using double to float - hiro: added skeleton (unused) Application::scale(), setScale() functions Errata: - hiro/cocoa's Monitor::dpi() is untested. Probably will cause issues with macOS' automatic scaling. - hiro/gtk lacks a way to get both per-monitor and per-axis (x,y) DPI scaling - hiro/qt lacks a way to get per-monitor DPI scaling (Qt 5.x has this, but I still use Qt 4.x) - and just to get global DPI, hiro/qt's DPI retrieval has to use undocumented functions ... fun The goal with this WIP was basically to prepare hiro for potential automatic scaling. It'll be extremely difficult, but I'm convinced that it must be possible if macOS can do it. By moving from signed integers to floats for coordinates, we can now scale and unscale without losing precision. That of course isn't the hard part, though. The hard part is where and how to do the scaling. In the ideal application, hiro/core and hiro/extension will handle 100% of this, and the per-platform hiro/(cocoa,gtk,qt,windows) will not be aware of what's going on, but ... to even make that possible, things will need to change in every per-platform core, eg the per-platform code will have to call a core function to change geometry, which will know about the scaling and unscale the values back down again. Gonna be a lot of work, but ... it's a start.
2017-09-08 06:06:21 +00:00
NSSize dpi = [[dictionary objectForKey:NSDeviceSize] sizeValue];
return {dpi.width, dpi.height};
}
#endif
return {96.0, 96.0};
Update to v104r13 release. byuu says: Changelog: - nall/GNUmakefile: build=release changed to -O2, build=optimize is now -O3 - hiro: added Monitor::dpi(uint index) → Position [returns logical DPI for x, y] - Position is a bad name, but dpi(monitor).(x,y)() make more sense than .(width,height)() - hiro: Position, Size, Geometry, Font changed from using signed int to float - hiro: Alignment changed from using double to float - hiro: added skeleton (unused) Application::scale(), setScale() functions Errata: - hiro/cocoa's Monitor::dpi() is untested. Probably will cause issues with macOS' automatic scaling. - hiro/gtk lacks a way to get both per-monitor and per-axis (x,y) DPI scaling - hiro/qt lacks a way to get per-monitor DPI scaling (Qt 5.x has this, but I still use Qt 4.x) - and just to get global DPI, hiro/qt's DPI retrieval has to use undocumented functions ... fun The goal with this WIP was basically to prepare hiro for potential automatic scaling. It'll be extremely difficult, but I'm convinced that it must be possible if macOS can do it. By moving from signed integers to floats for coordinates, we can now scale and unscale without losing precision. That of course isn't the hard part, though. The hard part is where and how to do the scaling. In the ideal application, hiro/core and hiro/extension will handle 100% of this, and the per-platform hiro/(cocoa,gtk,qt,windows) will not be aware of what's going on, but ... to even make that possible, things will need to change in every per-platform core, eg the per-platform code will have to call a core function to change geometry, which will know about the scaling and unscale the values back down again. Gonna be a lot of work, but ... it's a start.
2017-09-08 06:06:21 +00:00
}
auto pMonitor::geometry(uint monitor) -> Geometry {
@autoreleasepool {
NSRect rectangle = [[[NSScreen screens] objectAtIndex:monitor] frame];
return {
(int)rectangle.origin.x,
(int)rectangle.origin.y,
(int)rectangle.size.width,
(int)rectangle.size.height
};
}
}
auto pMonitor::primary() -> uint {
//on macOS, the primary monitor is always the first monitor.
return 0;
}
auto pMonitor::workspace(uint monitor) -> Geometry {
@autoreleasepool {
NSRect size = [[[NSScreen screens] objectAtIndex:monitor] frame];
NSRect area = [[[NSScreen screens] objectAtIndex:monitor] visibleFrame];
return {
(int)area.origin.x,
(int)area.origin.y,
(int)area.size.width,
(int)area.size.height
};
}
}
}
#endif