use glib::translate::*;
use glib::subclass::prelude::*;
use glib::{Cast, VariantDict};
use crate::Application;
use libc::{c_char, c_int, c_void};
use std::ffi::OsString;
use std::fmt;
use std::ops::Deref;
use std::ptr;
pub struct ArgumentList {
pub(crate) ptr: *mut *mut *mut c_char,
items: Vec<OsString>,
}
impl ArgumentList {
pub(crate) fn new(arguments: *mut *mut *mut c_char) -> Self {
Self {
ptr: arguments,
items: unsafe { FromGlibPtrContainer::from_glib_none(ptr::read(arguments)) },
}
}
pub(crate) fn refresh(&mut self) {
self.items = unsafe { FromGlibPtrContainer::from_glib_none(ptr::read(self.ptr)) };
}
pub fn remove(&mut self, idx: usize) {
unsafe {
let n_args = glib::ffi::g_strv_length(*self.ptr) as usize;
assert_eq!(n_args, self.items.len());
assert!(idx < n_args);
self.items.remove(idx);
glib::ffi::g_free((*self.ptr).add(idx) as *mut c_void);
for i in idx..n_args - 1 {
ptr::write((*self.ptr).add(i), *(*self.ptr).add(i + 1))
}
ptr::write((*self.ptr).add(n_args - 1), ptr::null_mut());
}
}
}
impl Deref for ArgumentList {
type Target = [OsString];
fn deref(&self) -> &Self::Target {
self.items.as_slice()
}
}
impl fmt::Debug for ArgumentList {
fn fmt(&self, formatter: &mut fmt::Formatter) -> Result<(), fmt::Error> {
self.items.fmt(formatter)
}
}
impl From<ArgumentList> for Vec<OsString> {
fn from(list: ArgumentList) -> Vec<OsString> {
list.items
}
}
pub trait ApplicationImpl: ObjectImpl + ApplicationImplExt {
fn activate(&self) {
self.parent_activate()
}
fn after_emit(&self, platform_data: &glib::Variant) {
self.parent_after_emit(platform_data)
}
fn before_emit(&self, platform_data: &glib::Variant) {
self.parent_before_emit(platform_data)
}
fn command_line(&self, command_line: &crate::ApplicationCommandLine) -> i32 {
self.parent_command_line(command_line)
}
fn local_command_line(&self, arguments: &mut ArgumentList) -> Option<i32> {
self.parent_local_command_line(arguments)
}
fn open(&self, files: &[crate::File], hint: &str) {
self.parent_open(files, hint)
}
fn quit_mainloop(&self) {
self.parent_quit_mainloop()
}
fn run_mainloop(&self) {
self.parent_run_mainloop()
}
fn shutdown(&self) {
self.parent_shutdown()
}
fn startup(&self) {
self.parent_startup()
}
fn handle_local_options(&self, options: &VariantDict) -> i32 {
self.parent_handle_local_options(options)
}
}
pub trait ApplicationImplExt: ObjectSubclass {
fn parent_activate(&self);
fn parent_after_emit(&self, platform_data: &glib::Variant);
fn parent_before_emit(&self, platform_data: &glib::Variant);
fn parent_command_line(&self, command_line: &crate::ApplicationCommandLine) -> i32;
fn parent_local_command_line(&self, arguments: &mut ArgumentList) -> Option<i32>;
fn parent_open(&self, files: &[crate::File], hint: &str);
fn parent_quit_mainloop(&self);
fn parent_run_mainloop(&self);
fn parent_shutdown(&self);
fn parent_startup(&self);
fn parent_handle_local_options(&self, options: &VariantDict) -> i32;
}
impl<T: ApplicationImpl> ApplicationImplExt for T {
fn parent_activate(&self) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.activate
.expect("No parent class implementation for \"activate\"");
f(self.obj().unsafe_cast_ref::<Application>().to_glib_none().0)
}
}
fn parent_after_emit(&self, platform_data: &glib::Variant) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.after_emit
.expect("No parent class implementation for \"after_emit\"");
f(
self.obj().unsafe_cast_ref::<Application>().to_glib_none().0,
platform_data.to_glib_none().0,
)
}
}
fn parent_before_emit(&self, platform_data: &glib::Variant) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.before_emit
.expect("No parent class implementation for \"before_emit\"");
f(
self.obj().unsafe_cast_ref::<Application>().to_glib_none().0,
platform_data.to_glib_none().0,
)
}
}
fn parent_command_line(&self, command_line: &crate::ApplicationCommandLine) -> i32 {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.command_line
.expect("No parent class implementation for \"command_line\"");
f(
self.obj().unsafe_cast_ref::<Application>().to_glib_none().0,
command_line.to_glib_none().0,
)
}
}
fn parent_local_command_line(&self, arguments: &mut ArgumentList) -> Option<i32> {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.local_command_line
.expect("No parent class implementation for \"local_command_line\"");
let mut exit_status = 0;
let res = f(
self.obj().unsafe_cast_ref::<Application>().to_glib_none().0,
arguments.ptr,
&mut exit_status,
);
arguments.refresh();
match res {
glib::ffi::GFALSE => None,
_ => Some(exit_status),
}
}
}
fn parent_open(&self, files: &[crate::File], hint: &str) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.open
.expect("No parent class implementation for \"open\"");
f(
self.obj().unsafe_cast_ref::<Application>().to_glib_none().0,
files.to_glib_none().0,
files.len() as i32,
hint.to_glib_none().0,
)
}
}
fn parent_quit_mainloop(&self) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.quit_mainloop
.expect("No parent class implementation for \"quit_mainloop\"");
f(self.obj().unsafe_cast_ref::<Application>().to_glib_none().0)
}
}
fn parent_run_mainloop(&self) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.run_mainloop
.expect("No parent class implementation for \"run_mainloop\"");
f(self.obj().unsafe_cast_ref::<Application>().to_glib_none().0)
}
}
fn parent_shutdown(&self) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.shutdown
.expect("No parent class implementation for \"shutdown\"");
f(self.obj().unsafe_cast_ref::<Application>().to_glib_none().0)
}
}
fn parent_startup(&self) {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
let f = (*parent_class)
.startup
.expect("No parent class implementation for \"startup\"");
f(self.obj().unsafe_cast_ref::<Application>().to_glib_none().0)
}
}
fn parent_handle_local_options(&self, options: &VariantDict) -> i32 {
unsafe {
let data = T::type_data();
let parent_class = data.as_ref().parent_class() as *mut ffi::GApplicationClass;
if let Some(f) = (*parent_class).handle_local_options {
f(
self.obj().unsafe_cast_ref::<Application>().to_glib_none().0,
options.to_glib_none().0,
)
} else {
-1
}
}
}
}
unsafe impl<T: ApplicationImpl> IsSubclassable<T> for Application {
fn class_init(class: &mut ::glib::Class<Self>) {
Self::parent_class_init::<T>(class);
let klass = class.as_mut();
klass.activate = Some(application_activate::<T>);
klass.after_emit = Some(application_after_emit::<T>);
klass.before_emit = Some(application_before_emit::<T>);
klass.command_line = Some(application_command_line::<T>);
klass.local_command_line = Some(application_local_command_line::<T>);
klass.open = Some(application_open::<T>);
klass.quit_mainloop = Some(application_quit_mainloop::<T>);
klass.run_mainloop = Some(application_run_mainloop::<T>);
klass.shutdown = Some(application_shutdown::<T>);
klass.startup = Some(application_startup::<T>);
klass.handle_local_options = Some(application_handle_local_options::<T>);
}
}
unsafe extern "C" fn application_activate<T: ApplicationImpl>(ptr: *mut ffi::GApplication) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.activate()
}
unsafe extern "C" fn application_after_emit<T: ApplicationImpl>(
ptr: *mut ffi::GApplication,
platform_data: *mut glib::ffi::GVariant,
) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.after_emit(&from_glib_borrow(platform_data))
}
unsafe extern "C" fn application_before_emit<T: ApplicationImpl>(
ptr: *mut ffi::GApplication,
platform_data: *mut glib::ffi::GVariant,
) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.before_emit(&from_glib_borrow(platform_data))
}
unsafe extern "C" fn application_command_line<T: ApplicationImpl>(
ptr: *mut ffi::GApplication,
command_line: *mut ffi::GApplicationCommandLine,
) -> i32 {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.command_line(&from_glib_borrow(command_line))
}
unsafe extern "C" fn application_local_command_line<T: ApplicationImpl>(
ptr: *mut ffi::GApplication,
arguments: *mut *mut *mut c_char,
exit_status: *mut i32,
) -> glib::ffi::gboolean {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
let mut args = ArgumentList::new(arguments);
let res = imp.local_command_line(&mut args);
args.refresh();
match res {
Some(ret) => {
*exit_status = ret;
glib::ffi::GTRUE
}
None => glib::ffi::GFALSE,
}
}
unsafe extern "C" fn application_open<T: ApplicationImpl>(
ptr: *mut ffi::GApplication,
files: *mut *mut ffi::GFile,
num_files: i32,
hint: *const c_char,
) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
let files: Vec<crate::File> = FromGlibContainer::from_glib_none_num(files, num_files as usize);
imp.open(files.as_slice(), &glib::GString::from_glib_borrow(hint))
}
unsafe extern "C" fn application_quit_mainloop<T: ApplicationImpl>(ptr: *mut ffi::GApplication) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.quit_mainloop()
}
unsafe extern "C" fn application_run_mainloop<T: ApplicationImpl>(ptr: *mut ffi::GApplication) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.run_mainloop()
}
unsafe extern "C" fn application_shutdown<T: ApplicationImpl>(ptr: *mut ffi::GApplication) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.shutdown()
}
unsafe extern "C" fn application_startup<T: ApplicationImpl>(ptr: *mut ffi::GApplication) {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.startup()
}
unsafe extern "C" fn application_handle_local_options<T: ApplicationImpl>(
ptr: *mut ffi::GApplication,
options: *mut glib::ffi::GVariantDict,
) -> c_int {
let instance = &*(ptr as *mut T::Instance);
let imp = instance.imp();
imp.handle_local_options(&from_glib_borrow(options))
}
#[cfg(test)]
mod tests {
use super::*;
use crate::prelude::*;
const EXIT_STATUS: i32 = 20;
mod imp {
use super::*;
#[derive(Default)]
pub struct SimpleApplication;
#[glib::object_subclass]
impl ObjectSubclass for SimpleApplication {
const NAME: &'static str = "SimpleApplication";
type Type = super::SimpleApplication;
type ParentType = Application;
}
impl ObjectImpl for SimpleApplication {}
impl ApplicationImpl for SimpleApplication {
fn command_line(&self, cmd_line: &crate::ApplicationCommandLine) -> i32 {
let arguments = cmd_line.arguments();
for arg in arguments {
let a = arg.into_string().unwrap();
assert!(!a.starts_with("--local-"))
}
EXIT_STATUS
}
fn local_command_line(&self, arguments: &mut ArgumentList) -> Option<i32> {
let mut rm = Vec::new();
for (i, line) in arguments.iter().enumerate() {
let l = line.clone().into_string().unwrap();
if l.starts_with("--local-") {
rm.push(i)
}
}
rm.reverse();
for i in rm.iter() {
arguments.remove(*i);
}
None
}
}
}
glib::wrapper! {
pub struct SimpleApplication(ObjectSubclass<imp::SimpleApplication>)
@implements crate::Application;
}
#[test]
fn test_simple_application() {
let app = glib::Object::new::<SimpleApplication>(&[
("application-id", &"org.gtk-rs.SimpleApplication"),
("flags", &crate::ApplicationFlags::empty()),
])
.upcast::<crate::Application>();
app.set_inactivity_timeout(10000);
assert_eq!(app.run_with_args(&["--local"]), EXIT_STATUS);
}
}