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use std::cell::Cell;
use std::rc::Rc;
#[allow(unused_imports)]
use std::marker::PhantomData;
#[allow(unused_imports)]
use std::os::raw::c_void;
#[allow(unused_imports)]
use std::mem::transmute;
#[allow(unused_imports)]
use std::ffi::{CStr, CString};
use rute_ffi_base::*;
#[allow(unused_imports)]
use auto::*;
#[derive(Clone)]
pub struct Screen<'a> {
#[doc(hidden)]
pub data: Rc<Cell<Option<*const RUBase>>>,
#[doc(hidden)]
pub all_funcs: *const RUScreenAllFuncs,
#[doc(hidden)]
pub owned: bool,
#[doc(hidden)]
pub _marker: PhantomData<::std::cell::Cell<&'a ()>>,
}
impl<'a> Screen<'a> {
#[allow(dead_code)]
pub(crate) fn new_from_rc(ffi_data: RUScreen) -> Screen<'a> {
Screen {
data: unsafe { Rc::from_raw(ffi_data.host_data as *const Cell<Option<*const RUBase>>) },
all_funcs: ffi_data.all_funcs,
owned: false,
_marker: PhantomData,
}
}
#[allow(dead_code)]
pub(crate) fn new_from_owned(ffi_data: RUScreen) -> Screen<'a> {
Screen {
data: Rc::new(Cell::new(Some(ffi_data.qt_data as *const RUBase))),
all_funcs: ffi_data.all_funcs,
owned: true,
_marker: PhantomData,
}
}
#[allow(dead_code)]
pub(crate) fn new_from_temporary(ffi_data: RUScreen) -> Screen<'a> {
Screen {
data: Rc::new(Cell::new(Some(ffi_data.qt_data as *const RUBase))),
all_funcs: ffi_data.all_funcs,
owned: false,
_marker: PhantomData,
}
}
pub fn name(&self) -> String {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).name)(obj_data);
let ret_val = CStr::from_ptr(ret_val).to_string_lossy().into_owned();
ret_val
}
}
pub fn manufacturer(&self) -> String {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).manufacturer)(obj_data);
let ret_val = CStr::from_ptr(ret_val).to_string_lossy().into_owned();
ret_val
}
}
pub fn model(&self) -> String {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).model)(obj_data);
let ret_val = CStr::from_ptr(ret_val).to_string_lossy().into_owned();
ret_val
}
}
pub fn serial_number(&self) -> String {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).serial_number)(obj_data);
let ret_val = CStr::from_ptr(ret_val).to_string_lossy().into_owned();
ret_val
}
}
pub fn depth(&self) -> i32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).depth)(obj_data);
ret_val
}
}
pub fn physical_dots_per_inch_x(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).physical_dots_per_inch_x)(obj_data);
ret_val
}
}
pub fn physical_dots_per_inch_y(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).physical_dots_per_inch_y)(obj_data);
ret_val
}
}
pub fn physical_dots_per_inch(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).physical_dots_per_inch)(obj_data);
ret_val
}
}
pub fn logical_dots_per_inch_x(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).logical_dots_per_inch_x)(obj_data);
ret_val
}
}
pub fn logical_dots_per_inch_y(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).logical_dots_per_inch_y)(obj_data);
ret_val
}
}
pub fn logical_dots_per_inch(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).logical_dots_per_inch)(obj_data);
ret_val
}
}
pub fn device_pixel_ratio(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).device_pixel_ratio)(obj_data);
ret_val
}
}
pub fn available_size(&self) -> Size {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).available_size)(obj_data);
let t = ret_val;
let ret_val;
if t.host_data != ::std::ptr::null() {
ret_val = Size::new_from_rc(t);
} else {
ret_val = Size::new_from_owned(t);
}
ret_val
}
}
pub fn virtual_size(&self) -> Size {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).virtual_size)(obj_data);
let t = ret_val;
let ret_val;
if t.host_data != ::std::ptr::null() {
ret_val = Size::new_from_rc(t);
} else {
ret_val = Size::new_from_owned(t);
}
ret_val
}
}
pub fn available_virtual_size(&self) -> Size {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).available_virtual_size)(obj_data);
let t = ret_val;
let ret_val;
if t.host_data != ::std::ptr::null() {
ret_val = Size::new_from_rc(t);
} else {
ret_val = Size::new_from_owned(t);
}
ret_val
}
}
pub fn primary_orientation(&self) -> ScreenOrientation {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).primary_orientation)(obj_data);
let ret_val = { transmute::<i32, ScreenOrientation>(ret_val) };
ret_val
}
}
pub fn angle_between(&self, a: ScreenOrientation, b: ScreenOrientation) -> i32 {
let enum_a_1 = a as i32;
let enum_b_2 = b as i32;
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).angle_between)(obj_data, enum_a_1, enum_b_2);
ret_val
}
}
pub fn is_landscape(&self, orientation: ScreenOrientation) -> bool {
let enum_orientation_1 = orientation as i32;
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).is_landscape)(obj_data, enum_orientation_1);
ret_val
}
}
pub fn refresh_rate(&self) -> f32 {
let (obj_data, funcs) = self.get_screen_obj_funcs();
unsafe {
let ret_val = ((*funcs).refresh_rate)(obj_data);
ret_val
}
}
}
pub trait ScreenTrait<'a> {
#[inline]
#[doc(hidden)]
fn get_screen_obj_funcs(&self) -> (*const RUBase, *const RUScreenFuncs);
}
impl<'a> ScreenTrait<'a> for Screen<'a> {
#[doc(hidden)]
fn get_screen_obj_funcs(&self) -> (*const RUBase, *const RUScreenFuncs) {
let obj = self.data.get().unwrap();
unsafe { (obj, (*self.all_funcs).screen_funcs) }
}
}