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// See LICENSE file for copyright and license details.
use x11::xlib;
use x11::xlib::{
Window,
XWindowAttributes,
XGetWindowAttributes,
XDefaultScreenOfDisplay,
XMoveWindow, XMoveResizeWindow,
XDisplayHeight, XDisplayWidth, XDefaultScreen,
XA_ATOM, Atom, PropModeReplace,
XSetInputFocus,
XSetWindowBorder,
IsViewable, RevertToParent, CurrentTime,
XEvent, XSendEvent, XClientMessageEvent,
ClientMessage,ClientMessageData, NoEventMask,
XChangeProperty,
XChangeWindowAttributes, XSetWindowAttributes,
XMapWindow, XUnmapWindow,
XBlackPixel,XWhitePixel, XDrawString,
};
use std::ptr;
use std::mem::uninitialized;
use std::mem::transmute;
use std::cmp::{max};
use std::ffi::CString;
use safe_x11::{screen_ratio,get_color};
/// Representation of [`xlib::Window`](../../x11/xlib/type.Window.html)
pub struct XWindow {
display: *mut xlib::Display,
// The Application window.
pub inner: Window,
fullscreen: bool,
prev_attribs: XWindowAttributes,
}
fn fixed_with_ratio(x: i32, ratio: f32) -> i32 {
let fx = x as f32;
let fixed = fx * ratio;
fixed as i32
}
fn window_attribs(display: *mut xlib::Display, w: Window) -> XWindowAttributes {
unsafe {
let mut attrptr: XWindowAttributes = uninitialized();
XGetWindowAttributes(display, w, &mut attrptr);
attrptr
}
}
impl XWindow {
/// Generate a reference to the window in certain display. This will return
/// `None` if the window is the root window.
pub fn new(d: *mut xlib::Display, w: Window) -> Option<XWindow> {
if w != 0 {
let attrs: XWindowAttributes = unsafe { uninitialized() };
println!("Window created!");
Some(XWindow {
display: d,
inner: w,
fullscreen: false,
prev_attribs: attrs,
})
} else {
None
}
}
/// Set the border width To the window.
pub fn set_border_width(&self, size: u32) {
unsafe { xlib::XSetWindowBorderWidth(self.display, self.inner, size) };
}
/// clients receiving a WM_DELETE_WINDOW message should behave as if
/// the user selected "delete window" from a hypothetical menu and
/// also perform any confirmation dialog with the user.
pub fn delete(&self) {
// First delete the border window and then the main window.
let mut ev: XClientMessageEvent = unsafe { uninitialized() };
ev.type_ = ClientMessage;
ev.window = self.inner;
ev.format = 32;
ev.message_type = 0; // WM_PROTOCOLS
ev.data = ClientMessageData::new();
ev.data.set_long(0, 0); // WM_DELETE_WINDOW
ev.data.set_long(1, CurrentTime as i64);
let mut event = XEvent::from(ev);
unsafe { XSendEvent(self.display, self.inner, 0, NoEventMask, &mut event); }
}
/// Sets the border color to the selected window
pub fn set_border_color<T: Into<Vec<u8>>>(&self, color: T) {
let c = get_color(self.display, color);
unsafe { XSetWindowBorder(self.display, self.inner, c); }
}
/// Raises a window.
pub fn raise(&self) {
unsafe {
xlib::XRaiseWindow(self.display, self.inner);
}
}
/// Register input events on some [`xlib::Window`](../../x11/xlib/type.Window.html)
///
/// # Example
///
/// if we want to handle when a pointer enter into a window rectangle, we
/// should do something like:
///
/// ```
/// use x11::xlib;
///
/// let display = open_display("").unwrap();
/// // Raw window
/// let window = 0xc00022;
///
/// window.select_input(xlib::EnterWindowMask);
/// ```
pub fn select_input(&self, mask: i64) {
unsafe { xlib::XSelectInput(self.display, self.inner, mask); }
}
/// Returns the window attributes from certain window.
pub fn attributes(&self) -> XWindowAttributes {
window_attribs(self.display, self.inner)
}
/// Moves the window given an offset from where it is.
pub fn move_offset(&self, xoffset: i32, yoffset: i32) {
unsafe {
let mut attributes: XWindowAttributes = uninitialized();
XGetWindowAttributes(self.display, self.inner, &mut attributes);
XMoveWindow(self.display, self.inner,
attributes.x + xoffset,
attributes.y + yoffset);
}
}
/// Moves the window to a particular coord in the screen.
pub fn move_to(&self, x: i32, y: i32) -> Result<(), &str> {
let screen = unsafe {
let s = XDefaultScreenOfDisplay(self.display);
ptr::read(s)
};
if 0 > x && x <= screen.width || 0 > y && y <= screen.height {
Err("Cannot move the window outside the screen!")
} else {
unsafe {
XMoveWindow(self.display, self.inner, x, y);
};
Ok(())
}
}
// Some functions for moving within some boundaries.
/// Move sticky to the left.
pub fn move_sticky_left(&self, boundaries: &[i32]) {
let attrs = self.attributes();
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a >= attrs.x)
.next() {
let _ = self.move_to(*v, attrs.y);
}
}
/// Move sticky to the right.
pub fn move_sticky_right(&self, boundaries: &[i32]) {
let attrs = self.attributes();
let win_bound = attrs.x + attrs.width;
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a <= win_bound)
.next() {
let _ = self.move_to(*v - attrs.width, attrs.y);
}
}
/// Move up sticky.
pub fn move_sticky_up(&self, boundaries: &[i32]) {
let attrs = self.attributes();
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a >= attrs.y)
.next() {
let _ = self.move_to(attrs.x, *v);
}
}
/// Move down sticky.
pub fn move_sticky_down(&self, boundaries: &[i32]) {
let attrs = self.attributes();
let win_bound = attrs.y + attrs.height;
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a <= win_bound)
.next() {
let _ = self.move_to(attrs.x, *v - attrs.height);
}
}
/// Move and resize the window in one step
pub fn move_resize(&self, x:i32, y: i32, w: u32, h: u32) {
unsafe {
XMoveResizeWindow(self.display, self.inner, x, y, w, h as u32);
}
}
/// Resizes the window a fixed amount within the height and width.
pub fn resize(&self, w: i32, h: i32) {
let ratio = screen_ratio(self.display);
let attrs = self.attributes();
unsafe {
let ww: u32 = max(1, (attrs.width + fixed_with_ratio(w, ratio)) as u32);
let wh: u32 = max(1, (attrs.height + fixed_with_ratio(h, ratio)) as u32);
xlib::XResizeWindow(self.display, self.inner,
ww, wh as u32);
}
}
/// Resizes the window an absolute amount within the height and width.
pub fn resize_abs(&self, w: i32, h: i32) {
let attrs = self.attributes();
unsafe {
let ww: u32 = max(1, (attrs.width + w) as u32);
let wh: u32 = max(1, (attrs.height + h) as u32);
xlib::XResizeWindow(self.display, self.inner,
ww, wh);
}
}
pub fn resize_to(&self, w: i32, h: i32) {
unsafe {
let ww: u32 = max(1, w as u32);
let wh: u32 = max(1, h as u32);
xlib::XResizeWindow(self.display, self.inner,
ww, wh);
}
}
pub fn resize_sticky_left(&self, boundaries: &[i32]) {
let attrs = self.attributes();
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a >= attrs.x + attrs.width)
.next() {
let diff = attrs.width - (*v - attrs.x);
if *v - attrs.x > 0 {
self.resize_to(attrs.width - diff, attrs.height);
}
}
}
pub fn resize_sticky_right(&self, boundaries: &[i32]) {
let attrs = self.attributes();
let win_bound = attrs.x + attrs.width;
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a <= win_bound)
.next() {
let new_width = *v - attrs.x;
self.resize_to(new_width, attrs.height);
}
}
pub fn resize_sticky_up(&self, boundaries: &[i32]) {
let attrs = self.attributes();
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a >= attrs.y + attrs.height)
.next() {
let diff = attrs.height - (*v - attrs.y);
if *v - attrs.y > 0 {
self.resize_to(attrs.width, attrs.height - diff);
}
}
}
pub fn resize_sticky_down(&self, boundaries: &[i32]) {
let attrs = self.attributes();
let win_bound = attrs.y + attrs.height;
if let Some(v) = boundaries.iter()
.skip_while(|&a| *a <= win_bound)
.next() {
let new_height = *v - attrs.y;
self.resize_to(attrs.width, new_height);
}
}
/// Raise the focus of the window and set a border.
pub fn focus(&self) {
let attrs = self.attributes();
if attrs.map_state == IsViewable {
unsafe {
XSetInputFocus(self.display, self.inner,
RevertToParent, CurrentTime)
};
}
self.raise();
self.set_border_width(1);
self.set_border_color("red");
}
/// Give a black border.
pub fn unfocus(&self) {
self.set_border_width(1);
self.set_border_color("black");
}
/// Fullscreen toggle
pub fn fullscreen(&mut self, wm_state_atom: Atom, fs_atom: Atom) {
let screen = unsafe { XDefaultScreen(self.display) };
let dh: u32 = unsafe { XDisplayHeight(self.display, screen) as u32 };
let dw: u32 = unsafe { XDisplayWidth(self.display, screen) as u32 };
if !self.fullscreen {
// First, store the XWindowAttributes to query later.
self.prev_attribs = self.attributes();
self.fullscreen = true;
self.move_resize(0, 0, dw, dh);
self.set_border_width(0);
} else {
self.fullscreen = false;
self.move_resize(self.prev_attribs.x,
self.prev_attribs.y,
self.prev_attribs.width as u32,
self.prev_attribs.height as u32);
self.set_border_width(1);
}
// EWMH for fullscreen (Don't know how to test it.)
let fs_atom_slice: &[Atom; 1] = &[fs_atom];
let fs_atom_ptr: *const u8 = unsafe { transmute(fs_atom_slice) };
unsafe {
XChangeProperty(self.display, self.inner, wm_state_atom,
XA_ATOM, 32, PropModeReplace, fs_atom_ptr,
self.fullscreen as i32);
}
}
pub fn draw_string<T: Into<Vec<u8>>>(&self, s: T) {
// Title :D
println!("Drawing string for {}", self.inner);
let cstr = CString::new(s).unwrap();
unsafe {
let gc = xlib::XCreateGC(self.display, self.inner, 0, ptr::null_mut());
xlib::XSetForeground(self.display, gc, XWhitePixel(self.display, 0));
xlib::XSetBackground(self.display, gc, XBlackPixel(self.display, 0));
let cstring = CString::new("fixed").unwrap();
let font: xlib::XFontStruct = ptr::read(xlib::XLoadQueryFont(self.display, cstring.as_ptr()));
xlib::XSetFont(self.display, gc, font.fid);
xlib::XClearWindow(self.display, self.inner);
XDrawString(self.display, self.inner, gc,
3, 10, cstr.as_ptr(), cstr.to_bytes().len() as i32);
}
}
pub fn map(&self) {
unsafe { XMapWindow(self.display, self.inner); }
}
pub fn unmap(&self) {
unsafe { XUnmapWindow(self.display, self.inner); }
}
}
pub fn change_window_attributes(display: *mut xlib::Display, win: Window, mask: u64,
window_attribs: *mut XSetWindowAttributes) {
unsafe {
XChangeWindowAttributes(display, win, mask, window_attribs);
}
}
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