use std::{ ffi::OsStr, fs, path::Path, process::{Command, Output}, }; const EXPECTED_TEST_OUTPUT: &str = concat!( "test \"explicit local vec_string empty len facade\" ... ok\n", "test \"explicit local vec_string direct at facade\" ... ok\n", "test \"explicit local vec_string builder helpers\" ... ok\n", "test \"explicit local vec_string query helpers\" ... ok\n", "test \"explicit local vec_string option query helpers\" ... ok\n", "test \"explicit local vec_string starts_with helper\" ... ok\n", "test \"explicit local vec_string ends_with helper\" ... ok\n", "test \"explicit local vec_string without_suffix helper\" ... ok\n", "test \"explicit local vec_string without_prefix helper\" ... ok\n", "test \"explicit local vec_string transform helpers\" ... ok\n", "test \"explicit local vec_string subvec helper\" ... ok\n", "test \"explicit local vec_string insert helper\" ... ok\n", "test \"explicit local vec_string insert range helper\" ... ok\n", "test \"explicit local vec_string replace helper\" ... ok\n", "test \"explicit local vec_string replace range helper\" ... ok\n", "test \"explicit local vec_string remove helper\" ... ok\n", "test \"explicit local vec_string remove range helper\" ... ok\n", "test \"explicit local vec_string real-program helpers\" ... ok\n", "test \"explicit local vec_string helpers all\" ... ok\n", "19 test(s) passed\n", ); const STANDARD_VEC_STRING_SOURCE_FACADE_ALPHA: &[&str] = &[ "empty", "append", "len", "at", "singleton", "append2", "append3", "pair", "triple", "is_empty", "index_or", "first_or", "last_or", "index_option", "first_option", "last_option", "index_of_option", "last_index_of_option", "contains", "count_of", "concat", "take", "starts_with", "without_prefix", "ends_with", "without_suffix", "drop", "reverse", "subvec", "insert_at", "insert_range", "replace_at", "replace_range", "remove_at", "remove_range", ]; #[test] fn standard_vec_string_source_helper_project_checks_formats_and_tests() { let project = Path::new(env!("CARGO_MANIFEST_DIR")) .join("../examples/projects/std-layout-local-vec_string"); assert_local_vec_string_fixture_is_source_authored(&project); let fmt = run_glagol([ OsStr::new("fmt"), OsStr::new("--check"), project.as_os_str(), ]); assert_success("std layout local vec_string fmt --check", &fmt); let check = run_glagol([OsStr::new("check"), project.as_os_str()]); assert_success_stdout(check, "", "std layout local vec_string check"); let test = run_glagol([OsStr::new("test"), project.as_os_str()]); assert_success_stdout( test, EXPECTED_TEST_OUTPUT, "std layout local vec_string test output", ); } fn assert_local_vec_string_fixture_is_source_authored(project: &Path) { let vec_string = read(&project.join("src/vec_string.slo")); let main = read(&project.join("src/main.slo")); assert!( vec_string.starts_with("(module vec_string (export "), "vec_string.slo must stay an explicit local module export" ); assert!( main.starts_with("(module main)\n\n(import vec_string ("), "main.slo must stay an explicit local vec_string import" ); assert!( !vec_string.contains("(import std") && !main.contains("(import std.") && !vec_string.contains("(import slovo.std") && !main.contains("(import slovo.std"), "vec_string fixture must not depend on automatic or package std imports" ); assert!( !vec_string.contains("(var ") && !main.contains("(var ") && !vec_string.contains("(set ") && !main.contains("(set "), "vec_string fixture must stay recursive and immutable without mutating locals" ); assert!( !vec_string.contains("(vec i32)") && !main.contains("(vec i32)") && !vec_string.contains("(vec i64)") && !main.contains("(vec i64)") && !vec_string.contains("(vec f64)") && !main.contains("(vec f64)") && !vec_string.contains("(vec bool)") && !main.contains("(vec bool)") && !vec_string.contains("(option i64)") && !main.contains("(option i64)") && !vec_string.contains("(option f64)") && !main.contains("(option f64)") && !vec_string.contains("(option bool)") && !main.contains("(option bool)") && !vec_string.contains("(result i32") && !main.contains("(result i32") && !vec_string.contains("(result i64") && !main.contains("(result i64") && !vec_string.contains("(result f64") && !main.contains("(result f64") && !vec_string.contains("(result string") && !main.contains("(result string") && !vec_string.contains("(result bool") && !main.contains("(result bool"), "vec_string fixture must stay limited to concrete vec string plus option i32/string helpers" ); let mut non_vec_std = vec_string.clone(); for allowed in [ "std.vec.string.empty", "std.vec.string.append", "std.vec.string.len", "std.vec.string.index", ] { non_vec_std = non_vec_std.replace(allowed, ""); } assert!( !non_vec_std.contains("std.") && !main.contains("std."), "vec_string fixture must use only the promoted std.vec.string runtime names" ); assert!( !vec_string.contains("capacity") && !vec_string.contains("reserve") && !vec_string.contains("shrink") && !vec_string.contains("sort") && !vec_string.contains("map") && !vec_string.contains("filter") && !vec_string.contains("concat_all"), "vec_string fixture must not claim deferred generic or mutation-heavy collection APIs" ); for helper in STANDARD_VEC_STRING_SOURCE_FACADE_ALPHA { assert!( vec_string.contains(&format!("(fn {} ", helper)), "vec_string.slo is missing source helper `{}`", helper ); assert!( main.contains(helper), "main.slo does not explicitly import/use `{}`", helper ); } for helper in [ "index_of_option_loop", "last_index_of_option_loop", "contains_loop", "count_of_loop", "concat_loop", "take_loop", "drop_loop", "reverse_loop", ] { assert!( vec_string.contains(&format!("(fn {} ", helper)), "vec_string.slo is missing recursive source helper `{}`", helper ); } } fn run_glagol(args: I) -> Output where I: IntoIterator, S: AsRef, { Command::new(env!("CARGO_BIN_EXE_glagol")) .args(args) .current_dir(Path::new(env!("CARGO_MANIFEST_DIR"))) .output() .expect("run glagol") } fn read(path: &Path) -> String { fs::read_to_string(path).unwrap_or_else(|err| panic!("read `{}`: {}", path.display(), err)) } fn assert_success(context: &str, output: &Output) { let stdout = String::from_utf8_lossy(&output.stdout); let stderr = String::from_utf8_lossy(&output.stderr); assert!( output.status.success(), "{} failed\nstdout:\n{}\nstderr:\n{}", context, stdout, stderr ); assert!(stderr.is_empty(), "{} wrote stderr:\n{}", context, stderr); } fn assert_success_stdout(output: Output, expected: &str, context: &str) { let stdout = String::from_utf8_lossy(&output.stdout); let stderr = String::from_utf8_lossy(&output.stderr); assert!( output.status.success(), "{} failed\nstdout:\n{}\nstderr:\n{}", context, stdout, stderr ); assert_eq!(stdout, expected, "{} stdout drifted", context); assert!(stderr.is_empty(), "{} wrote stderr:\n{}", context, stderr); }