use std::env::current_dir; use std::path::PathBuf; use semver::Version; use cargo_metadata::{CargoOpt, Error, MetadataCommand}; use serde::Deserialize; #[derive(Debug, PartialEq, Eq, Deserialize)] struct TestPackageMetadata { some_field: bool, other_field: String, } #[test] fn metadata() { let metadata = MetadataCommand::new().no_deps().exec().unwrap(); let this = &metadata.packages[0]; assert_eq!(this.name, "cargo_metadata"); assert_eq!(this.targets.len(), 3); let lib = this .targets .iter() .find(|t| t.name == "cargo_metadata") .unwrap(); assert_eq!(lib.kind[0], "lib"); assert_eq!(lib.crate_types[0], "lib"); let selftest = this.targets.iter().find(|t| t.name == "selftest").unwrap(); assert_eq!(selftest.name, "selftest"); assert_eq!(selftest.kind[0], "test"); assert_eq!(selftest.crate_types[0], "bin"); let package_metadata = &metadata.packages[0] .metadata .as_object() .expect("package.metadata must be a table."); assert_eq!(package_metadata.len(), 1); let value = package_metadata.get("cargo_metadata_test").unwrap(); let test_package_metadata: TestPackageMetadata = serde_json::from_value(value.clone()).unwrap(); assert_eq!( test_package_metadata, TestPackageMetadata { some_field: true, other_field: "foo".into(), } ); } #[test] fn builder_interface() { let _ = MetadataCommand::new() .manifest_path("Cargo.toml") .exec() .unwrap(); let _ = MetadataCommand::new() .manifest_path(String::from("Cargo.toml")) .exec() .unwrap(); let _ = MetadataCommand::new() .manifest_path(PathBuf::from("Cargo.toml")) .exec() .unwrap(); let _ = MetadataCommand::new() .manifest_path("Cargo.toml") .no_deps() .exec() .unwrap(); let _ = MetadataCommand::new() .manifest_path("Cargo.toml") .features(CargoOpt::AllFeatures) .exec() .unwrap(); let _ = MetadataCommand::new() .manifest_path("Cargo.toml") .current_dir(current_dir().unwrap()) .exec() .unwrap(); } #[test] fn error1() { match MetadataCommand::new().manifest_path("foo").exec() { Err(Error::CargoMetadata { stderr }) => assert_eq!( stderr.trim(), "error: the manifest-path must be a path to a Cargo.toml file" ), _ => unreachable!(), } } #[test] fn error2() { match MetadataCommand::new() .manifest_path("foo/Cargo.toml") .exec() { Err(Error::CargoMetadata { stderr }) => assert_eq!( stderr.trim(), "error: manifest path `foo/Cargo.toml` does not exist" ), _ => unreachable!(), } } #[test] fn cargo_path() { match MetadataCommand::new() .cargo_path("this does not exist") .exec() { Err(Error::Io(e)) => assert_eq!(e.kind(), std::io::ErrorKind::NotFound), _ => unreachable!(), } } #[test] fn metadata_deps() { std::env::set_var("CARGO_PROFILE", "3"); let metadata = MetadataCommand::new() .manifest_path("Cargo.toml") .exec() .unwrap(); let this_id = metadata .workspace_members .first() .expect("Did not find ourselves"); let this = &metadata[this_id]; assert_eq!(this.name, "cargo_metadata"); let workspace_packages = metadata.workspace_packages(); assert_eq!(workspace_packages.len(), 1); assert_eq!(&workspace_packages[0].id, this_id); let lib = this .targets .iter() .find(|t| t.name == "cargo_metadata") .unwrap(); assert_eq!(lib.kind[0], "lib"); assert_eq!(lib.crate_types[0], "lib"); let selftest = this.targets.iter().find(|t| t.name == "selftest").unwrap(); assert_eq!(selftest.name, "selftest"); assert_eq!(selftest.kind[0], "test"); assert_eq!(selftest.crate_types[0], "bin"); let dependencies = &this.dependencies; let serde = dependencies .iter() .find(|dep| dep.name == "serde") .expect("Did not find serde dependency"); assert_eq!(serde.kind, cargo_metadata::DependencyKind::Normal); assert!(!serde.req.matches(&Version::parse("1.0.0").unwrap())); assert!(serde.req.matches(&Version::parse("1.99.99").unwrap())); assert!(!serde.req.matches(&Version::parse("2.0.0").unwrap())); }