// Based on https://github.com/rclrust/rclrust/tree/3a48dbb8f23a3d67d3031351da3ed236a354f039/rclrust-msg-gen #![warn( rust_2018_idioms, elided_lifetimes_in_paths, clippy::all, clippy::nursery )] use std::path::Path; use quote::quote; pub mod parser; pub mod types; pub use crate::parser::get_packages; pub fn gen

(paths: &[P], create_cxx_bridge: bool) -> proc_macro2::TokenStream where P: AsRef, { let packages = get_packages(paths).unwrap(); let mut shared_type_defs = Vec::new(); let mut message_struct_impls = Vec::new(); let mut message_topic_defs = Vec::new(); let mut message_topic_impls = Vec::new(); let mut service_defs = Vec::new(); let mut service_impls = Vec::new(); let mut service_creation_defs = Vec::new(); let mut service_creation_impls = Vec::new(); let mut aliases = Vec::new(); for package in &packages { for message in &package.messages { let (def, imp) = message.struct_token_stream(&package.name, create_cxx_bridge); shared_type_defs.push(def); message_struct_impls.push(imp); if create_cxx_bridge { let (topic_def, topic_impl) = message.topic_def(&package.name); message_topic_defs.push(topic_def); message_topic_impls.push(topic_impl); } } for service in &package.services { let (def, imp) = service.struct_token_stream(&package.name, create_cxx_bridge); service_defs.push(def); service_impls.push(imp); if create_cxx_bridge { let (service_creation_def, service_creation_impl) = service.cxx_service_creation_functions(&package.name); service_creation_defs.push(service_creation_def); service_creation_impls.push(service_creation_impl); } } aliases.push(package.aliases_token_stream()); } let (attributes, imports_and_functions, cxx_bridge_impls) = if create_cxx_bridge { ( quote! { #[cxx::bridge] }, quote! { #[allow(dead_code)] extern "C++" { type CombinedEvents = crate::ffi::CombinedEvents; type CombinedEvent = crate::ffi::CombinedEvent; } extern "Rust" { type Ros2Context; type Ros2Node; fn init_ros2_context() -> Result>; fn new_node(self: &Ros2Context, name_space: &str, base_name: &str) -> Result>; fn qos_default() -> Ros2QosPolicies; #(#message_topic_defs)* #(#service_creation_defs)* } #[derive(Debug, Clone)] pub struct Ros2QosPolicies { pub durability: Ros2Durability, pub liveliness: Ros2Liveliness, pub lease_duration: f64, pub reliable: bool, pub max_blocking_time: f64, pub keep_all: bool, pub keep_last: i32, } /// DDS 2.2.3.4 DURABILITY #[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)] pub enum Ros2Durability { Volatile, TransientLocal, Transient, Persistent, } /// DDS 2.2.3.11 LIVELINESS #[derive(Copy, Clone, Debug, PartialEq)] pub enum Ros2Liveliness { Automatic, ManualByParticipant, ManualByTopic, } }, quote! { struct Ros2Context{ context: ros2_client::Context, executor: std::sync::Arc, } fn init_ros2_context() -> eyre::Result> { Ok(Box::new(Ros2Context{ context: ros2_client::Context::new()?, executor: std::sync::Arc::new(futures::executor::ThreadPool::new()?), })) } impl Ros2Context { fn new_node(&self, name_space: &str, base_name: &str) -> eyre::Result> { use futures::task::SpawnExt as _; use eyre::WrapErr as _; let name = ros2_client::NodeName::new(name_space, base_name).map_err(|e| eyre::eyre!(e))?; let options = ros2_client::NodeOptions::new().enable_rosout(true); let mut node = self.context.new_node(name, options) .map_err(|e| eyre::eyre!("failed to create ROS2 node: {e:?}"))?; let spinner = node.spinner().context("failed to create spinner")?; self.executor.spawn(async { if let Err(err) = spinner.spin().await { eprintln!("ros2 spinner failed: {err:?}"); } }) .context("failed to spawn ros2 spinner")?; Ok(Box::new(Ros2Node{ node, executor: self.executor.clone(), })) } } struct Ros2Node { node : ros2_client::Node, executor: std::sync::Arc, } fn qos_default() -> ffi::Ros2QosPolicies { ffi::Ros2QosPolicies::new(None, None, None, None, None, None, None) } impl ffi::Ros2QosPolicies { pub fn new( durability: Option, liveliness: Option, reliable: Option, keep_all: Option, lease_duration: Option, max_blocking_time: Option, keep_last: Option, ) -> Self { Self { durability: durability.unwrap_or(ffi::Ros2Durability::Volatile), liveliness: liveliness.unwrap_or(ffi::Ros2Liveliness::Automatic), lease_duration: lease_duration.unwrap_or(f64::INFINITY), reliable: reliable.unwrap_or(false), max_blocking_time: max_blocking_time.unwrap_or(0.0), keep_all: keep_all.unwrap_or(false), keep_last: keep_last.unwrap_or(1), } } } impl From for rustdds::QosPolicies { fn from(value: ffi::Ros2QosPolicies) -> Self { rustdds::QosPolicyBuilder::new() .durability(value.durability.into()) .liveliness(value.liveliness.convert(value.lease_duration)) .reliability(if value.reliable { rustdds::policy::Reliability::Reliable { max_blocking_time: rustdds::Duration::from_frac_seconds( value.max_blocking_time, ), } } else { rustdds::policy::Reliability::BestEffort }) .history(if value.keep_all { rustdds::policy::History::KeepAll } else { rustdds::policy::History::KeepLast { depth: value.keep_last, } }) .build() } } impl From for rustdds::policy::Durability { fn from(value: ffi::Ros2Durability) -> Self { match value { ffi::Ros2Durability::Volatile => rustdds::policy::Durability::Volatile, ffi::Ros2Durability::TransientLocal => rustdds::policy::Durability::TransientLocal, ffi::Ros2Durability::Transient => rustdds::policy::Durability::Transient, ffi::Ros2Durability::Persistent => rustdds::policy::Durability::Persistent, _ => unreachable!(), // required because enums are represented as integers in bridge } } } impl ffi::Ros2Liveliness { fn convert(self, lease_duration: f64) -> rustdds::policy::Liveliness { let lease_duration = if lease_duration.is_infinite() { rustdds::Duration::INFINITE } else { rustdds::Duration::from_frac_seconds(lease_duration) }; match self { ffi::Ros2Liveliness::Automatic => rustdds::policy::Liveliness::Automatic { lease_duration }, ffi::Ros2Liveliness::ManualByParticipant => { rustdds::policy::Liveliness::ManualByParticipant { lease_duration } } ffi::Ros2Liveliness::ManualByTopic => rustdds::policy::Liveliness::ManualByTopic { lease_duration }, _ => unreachable!(), // required because enums are represented as integers in bridge } } } }, ) } else { ( quote! {}, quote! { use serde::{Serialize, Deserialize}; }, quote! {}, ) }; quote! { #attributes mod ffi { #imports_and_functions #[derive(Debug, Default, Clone, PartialEq, Eq, Serialize, Deserialize)] pub struct U16String { pub chars: Vec, } #(#shared_type_defs)* #(#service_defs)* } impl crate::_core::InternalDefault for ffi::U16String { fn _default() -> Self { Default::default() } } impl ffi::U16String { fn from_str(arg: &str) -> Self { Self { chars: crate::_core::widestring::U16String::from_str(arg).into_vec()} } } #(#message_struct_impls)* #cxx_bridge_impls #(#message_topic_impls)* #(#service_creation_impls)* #(#service_impls)* #(#aliases)* } }