use std::{env, slice, str::FromStr}; use super::{ ffi::{CurrentTime, RRCrtc, RRMode, Success, XRRCrtcInfo, XRRScreenResources}, *, }; use crate::{dpi::validate_hidpi_factor, platform_impl::platform::x11::VideoMode}; pub fn calc_dpi_factor( (width_px, height_px): (u32, u32), (width_mm, height_mm): (u64, u64), ) -> f64 { // Override DPI if `WINIT_HIDPI_FACTOR` variable is set let dpi_override = env::var("WINIT_HIDPI_FACTOR") .ok() .and_then(|var| f64::from_str(&var).ok()); if let Some(dpi_override) = dpi_override { if !validate_hidpi_factor(dpi_override) { panic!( "`WINIT_HIDPI_FACTOR` invalid; DPI factors must be normal floats greater than 0. Got `{}`", dpi_override, ); } return dpi_override; } // See http://xpra.org/trac/ticket/728 for more information. if width_mm == 0 || height_mm == 0 { warn!("XRandR reported that the display's 0mm in size, which is certifiably insane"); return 1.0; } let ppmm = ((width_px as f64 * height_px as f64) / (width_mm as f64 * height_mm as f64)).sqrt(); // Quantize 1/12 step size let dpi_factor = ((ppmm * (12.0 * 25.4 / 96.0)).round() / 12.0).max(1.0); assert!(validate_hidpi_factor(dpi_factor)); dpi_factor } impl XConnection { // Retrieve DPI from Xft.dpi property pub unsafe fn get_xft_dpi(&self) -> Option { (self.xlib.XrmInitialize)(); let resource_manager_str = (self.xlib.XResourceManagerString)(self.display); if resource_manager_str == ptr::null_mut() { return None; } if let Ok(res) = ::std::ffi::CStr::from_ptr(resource_manager_str).to_str() { let name: &str = "Xft.dpi:\t"; for pair in res.split("\n") { if pair.starts_with(&name) { let res = &pair[name.len()..]; return f64::from_str(&res).ok(); } } } None } pub unsafe fn get_output_info( &self, resources: *mut XRRScreenResources, crtc: *mut XRRCrtcInfo, ) -> Option<(String, f64, Vec)> { let output_info = (self.xrandr.XRRGetOutputInfo)(self.display, resources, *(*crtc).outputs.offset(0)); if output_info.is_null() { // When calling `XRRGetOutputInfo` on a virtual monitor (versus a physical display) // it's possible for it to return null. // https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=816596 let _ = self.check_errors(); // discard `BadRROutput` error return None; } let screen = (self.xlib.XDefaultScreen)(self.display); let bit_depth = (self.xlib.XDefaultDepth)(self.display, screen); let output_modes = slice::from_raw_parts((*output_info).modes, (*output_info).nmode as usize); let resource_modes = slice::from_raw_parts((*resources).modes, (*resources).nmode as usize); let modes = resource_modes .iter() // XRROutputInfo contains an array of mode ids that correspond to // modes in the array in XRRScreenResources .filter(|x| output_modes.iter().any(|id| x.id == *id)) .map(|x| { let refresh_rate = if x.dotClock > 0 && x.hTotal > 0 && x.vTotal > 0 { x.dotClock as u64 * 1000 / (x.hTotal as u64 * x.vTotal as u64) } else { 0 }; VideoMode { size: (x.width, x.height), refresh_rate: (refresh_rate as f32 / 1000.0).round() as u16, bit_depth: bit_depth as u16, native_mode: x.id, // This is populated in `MonitorHandle::video_modes` as the // video mode is returned to the user monitor: None, } }); let name_slice = slice::from_raw_parts( (*output_info).name as *mut u8, (*output_info).nameLen as usize, ); let name = String::from_utf8_lossy(name_slice).into(); let hidpi_factor = if let Some(dpi) = self.get_xft_dpi() { dpi / 96. } else { calc_dpi_factor( ((*crtc).width as u32, (*crtc).height as u32), ( (*output_info).mm_width as u64, (*output_info).mm_height as u64, ), ) }; (self.xrandr.XRRFreeOutputInfo)(output_info); Some((name, hidpi_factor, modes.collect())) } pub fn set_crtc_config(&self, crtc_id: RRCrtc, mode_id: RRMode) -> Result<(), ()> { unsafe { let mut major = 0; let mut minor = 0; (self.xrandr.XRRQueryVersion)(self.display, &mut major, &mut minor); let root = (self.xlib.XDefaultRootWindow)(self.display); let resources = if (major == 1 && minor >= 3) || major > 1 { (self.xrandr.XRRGetScreenResourcesCurrent)(self.display, root) } else { (self.xrandr.XRRGetScreenResources)(self.display, root) }; let crtc = (self.xrandr.XRRGetCrtcInfo)(self.display, resources, crtc_id); let status = (self.xrandr.XRRSetCrtcConfig)( self.display, resources, crtc_id, CurrentTime, (*crtc).x, (*crtc).y, mode_id, (*crtc).rotation, (*crtc).outputs.offset(0), 1, ); (self.xrandr.XRRFreeCrtcInfo)(crtc); (self.xrandr.XRRFreeScreenResources)(resources); if status == Success as i32 { Ok(()) } else { Err(()) } } } pub fn get_crtc_mode(&self, crtc_id: RRCrtc) -> RRMode { unsafe { let mut major = 0; let mut minor = 0; (self.xrandr.XRRQueryVersion)(self.display, &mut major, &mut minor); let root = (self.xlib.XDefaultRootWindow)(self.display); let resources = if (major == 1 && minor >= 3) || major > 1 { (self.xrandr.XRRGetScreenResourcesCurrent)(self.display, root) } else { (self.xrandr.XRRGetScreenResources)(self.display, root) }; let crtc = (self.xrandr.XRRGetCrtcInfo)(self.display, resources, crtc_id); let mode = (*crtc).mode; (self.xrandr.XRRFreeCrtcInfo)(crtc); (self.xrandr.XRRFreeScreenResources)(resources); mode } } }