use dora_tracing::set_up_tracing; use eyre::{bail, Context}; use std::{env::consts::EXE_SUFFIX, path::Path}; #[tokio::main] async fn main() -> eyre::Result<()> { set_up_tracing("c++-ros2-dataflow-example").wrap_err("failed to set up tracing")?; if cfg!(windows) { tracing::error!( "The c++ example does not work on Windows currently because of a linker error" ); return Ok(()); } let root = Path::new(env!("CARGO_MANIFEST_DIR")); let target = root.join("target"); std::env::set_current_dir(root.join(file!()).parent().unwrap()) .wrap_err("failed to set working dir")?; tokio::fs::create_dir_all("build").await?; let build_dir = Path::new("build"); build_package("dora-node-api-cxx", &["ros2-bridge"]).await?; let node_cxxbridge = target.join("cxxbridge").join("dora-node-api-cxx"); tokio::fs::copy( node_cxxbridge.join("dora-node-api.cc"), build_dir.join("dora-node-api.cc"), ) .await?; tokio::fs::copy( node_cxxbridge.join("dora-node-api.h"), build_dir.join("dora-node-api.h"), ) .await?; tokio::fs::copy( node_cxxbridge.join("dora-ros2-bindings.cc"), build_dir.join("dora-ros2-bindings.cc"), ) .await?; tokio::fs::copy( node_cxxbridge.join("dora-ros2-bindings.h"), build_dir.join("dora-ros2-bindings.h"), ) .await?; build_cxx_node( root, &[ &dunce::canonicalize(Path::new("node-rust-api").join("main.cc"))?, &dunce::canonicalize(build_dir.join("dora-ros2-bindings.cc"))?, &dunce::canonicalize(build_dir.join("dora-node-api.cc"))?, ], "node_rust_api", &["-l", "dora_node_api_cxx"], ) .await?; let dataflow = Path::new("dataflow.yml").to_owned(); run_dataflow(&dataflow).await?; Ok(()) } async fn build_package(package: &str, features: &[&str]) -> eyre::Result<()> { let cargo = std::env::var("CARGO").unwrap(); let mut cmd = tokio::process::Command::new(&cargo); cmd.arg("build"); cmd.arg("--package").arg(package); if !features.is_empty() { cmd.arg("--features").arg(features.join(",")); } if !cmd.status().await?.success() { bail!("failed to compile {package}"); }; Ok(()) } async fn build_cxx_node( root: &Path, paths: &[&Path], out_name: &str, args: &[&str], ) -> eyre::Result<()> { let mut clang = tokio::process::Command::new("clang++"); clang.args(paths); clang.arg("-std=c++17"); #[cfg(target_os = "linux")] { clang.arg("-l").arg("m"); clang.arg("-l").arg("rt"); clang.arg("-l").arg("dl"); clang.arg("-pthread"); } #[cfg(target_os = "windows")] { clang.arg("-ladvapi32"); clang.arg("-luserenv"); clang.arg("-lkernel32"); clang.arg("-lws2_32"); clang.arg("-lbcrypt"); clang.arg("-lncrypt"); clang.arg("-lschannel"); clang.arg("-lntdll"); clang.arg("-liphlpapi"); clang.arg("-lcfgmgr32"); clang.arg("-lcredui"); clang.arg("-lcrypt32"); clang.arg("-lcryptnet"); clang.arg("-lfwpuclnt"); clang.arg("-lgdi32"); clang.arg("-lmsimg32"); clang.arg("-lmswsock"); clang.arg("-lole32"); clang.arg("-lopengl32"); clang.arg("-lsecur32"); clang.arg("-lshell32"); clang.arg("-lsynchronization"); clang.arg("-luser32"); clang.arg("-lwinspool"); clang.arg("-Wl,-nodefaultlib:libcmt"); clang.arg("-D_DLL"); clang.arg("-lmsvcrt"); } #[cfg(target_os = "macos")] { clang.arg("-framework").arg("CoreServices"); clang.arg("-framework").arg("Security"); clang.arg("-l").arg("System"); clang.arg("-l").arg("resolv"); clang.arg("-l").arg("pthread"); clang.arg("-l").arg("c"); clang.arg("-l").arg("m"); } clang.args(args); clang.arg("-L").arg(root.join("target").join("debug")); clang .arg("--output") .arg(Path::new("../build").join(format!("{out_name}{EXE_SUFFIX}"))); if let Some(parent) = paths[0].parent() { clang.current_dir(parent); } if !clang.status().await?.success() { bail!("failed to compile c++ node"); }; Ok(()) } async fn run_dataflow(dataflow: &Path) -> eyre::Result<()> { let cargo = std::env::var("CARGO").unwrap(); let mut cmd = tokio::process::Command::new(&cargo); cmd.arg("run"); cmd.arg("--package").arg("dora-cli"); cmd.arg("--") .arg("daemon") .arg("--run-dataflow") .arg(dataflow); if !cmd.status().await?.success() { bail!("failed to run dataflow"); }; Ok(()) }