simcall_run_blocking([&result, self, &code]{
try {
auto future = code();
- future.then_([&result, self](simgrid::kernel::Future<T> value) {
- simgrid::xbt::setPromise(result, value);
+ future.then_([&result, self](std::shared_ptr<simgrid::kernel::FutureState<T>>&& value) {
+ simgrid::xbt::setPromise(result, simgrid::kernel::Future<T>(value));
simgrid::simix::unblock(self);
});
}
simcall_run_blocking([this, &result, self]{
try {
// When the kernel future is ready...
- this->future_.then_([&result, self](simgrid::kernel::Future<T> value) {
+ this->future_.then_([&result, self](std::shared_ptr<simgrid::kernel::FutureState<T>>&& value) {
// ... wake up the process with the result of the kernel future.
- simgrid::xbt::setPromise(result, value);
+ simgrid::xbt::setPromise(result, simgrid::kernel::Future<T>(value));
simgrid::simix::unblock(self);
});
}
simcall_run_blocking([this, &exception, self]{
try {
// When the kernel future is ready...
- this->future_.then_([this, self](simgrid::kernel::Future<T> value) {
+ this->future_.then_([this, self](std::shared_ptr<simgrid::kernel::FutureState<T>>&& value) {
// ...store it the simix kernel and wake up.
- this->future_ = std::move(value);
+ this->future_ = std::move(simgrid::kernel::Future<T>(value));
simgrid::simix::unblock(self);
});
}