// Copyright 2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use std::cell::RefCell; use std::char; use std::io; use std::io::{Process, TempDir}; use std::local_data; use std::os; use std::str; use collections::HashSet; use testing; use rustc::back::link; use rustc::driver::driver; use rustc::driver::session; use rustc::metadata::creader::Loader; use syntax::diagnostic; use syntax::codemap::CodeMap; use core; use clean; use clean::Clean; use fold::DocFolder; use html::markdown; use passes; use visit_ast::RustdocVisitor; pub fn run(input: &str, libs: HashSet, mut test_args: Vec<~str>) -> int { let input_path = Path::new(input); let input = driver::FileInput(input_path.clone()); let sessopts = session::Options { maybe_sysroot: Some(os::self_exe_path().unwrap().dir_path()), addl_lib_search_paths: RefCell::new(libs.clone()), crate_types: vec!(session::CrateTypeDylib), ..session::basic_options().clone() }; let codemap = CodeMap::new(); let diagnostic_handler = diagnostic::default_handler(); let span_diagnostic_handler = diagnostic::mk_span_handler(diagnostic_handler, codemap); let sess = driver::build_session_(sessopts, Some(input_path), span_diagnostic_handler); let cfg = driver::build_configuration(&sess); let krate = driver::phase_1_parse_input(&sess, cfg, &input); let (krate, _) = driver::phase_2_configure_and_expand(&sess, &mut Loader::new(&sess), krate, &from_str("rustdoc-test").unwrap()); let ctx = @core::DocContext { krate: krate, maybe_typed: core::NotTyped(sess), }; local_data::set(super::ctxtkey, ctx); let mut v = RustdocVisitor::new(ctx, None); v.visit(&ctx.krate); let krate = v.clean(); let (krate, _) = passes::unindent_comments(krate); let (krate, _) = passes::collapse_docs(krate); let mut collector = Collector::new(krate.name.to_owned(), libs, false, false); collector.fold_crate(krate); test_args.unshift(~"rustdoctest"); testing::test_main(test_args.as_slice(), collector.tests.move_iter().collect()); 0 } fn runtest(test: &str, cratename: &str, libs: HashSet, should_fail: bool, no_run: bool, loose_feature_gating: bool) { let test = maketest(test, cratename, loose_feature_gating); let input = driver::StrInput(test); let sessopts = session::Options { maybe_sysroot: Some(os::self_exe_path().unwrap().dir_path()), addl_lib_search_paths: RefCell::new(libs), crate_types: vec!(session::CrateTypeExecutable), output_types: vec!(link::OutputTypeExe), cg: session::CodegenOptions { prefer_dynamic: true, .. session::basic_codegen_options() }, ..session::basic_options().clone() }; // Shuffle around a few input and output handles here. We're going to pass // an explicit handle into rustc to collect output messages, but we also // want to catch the error message that rustc prints when it fails. // // We take our task-local stderr (likely set by the test runner), and move // it into another task. This helper task then acts as a sink for both the // stderr of this task and stderr of rustc itself, copying all the info onto // the stderr channel we originally started with. // // The basic idea is to not use a default_handler() for rustc, and then also // not print things by default to the actual stderr. let (tx, rx) = channel(); let w1 = io::ChanWriter::new(tx); let w2 = w1.clone(); let old = io::stdio::set_stderr(~w1); spawn(proc() { let mut p = io::ChanReader::new(rx); let mut err = old.unwrap_or(~io::stderr() as ~Writer:Send); io::util::copy(&mut p, &mut err).unwrap(); }); let emitter = diagnostic::EmitterWriter::new(~w2); // Compile the code let codemap = CodeMap::new(); let diagnostic_handler = diagnostic::mk_handler(~emitter); let span_diagnostic_handler = diagnostic::mk_span_handler(diagnostic_handler, codemap); let sess = driver::build_session_(sessopts, None, span_diagnostic_handler); let outdir = TempDir::new("rustdoctest").expect("rustdoc needs a tempdir"); let out = Some(outdir.path().clone()); let cfg = driver::build_configuration(&sess); driver::compile_input(sess, cfg, &input, &out, &None); if no_run { return } // Run the code! let exe = outdir.path().join("rust_out"); let out = Process::output(exe.as_str().unwrap(), []); match out { Err(e) => fail!("couldn't run the test: {}{}", e, if e.kind == io::PermissionDenied { " - maybe your tempdir is mounted with noexec?" } else { "" }), Ok(out) => { if should_fail && out.status.success() { fail!("test executable succeeded when it should have failed"); } else if !should_fail && !out.status.success() { fail!("test executable failed:\n{}", str::from_utf8(out.error)); } } } } fn maketest(s: &str, cratename: &str, loose_feature_gating: bool) -> ~str { let mut prog = ~r" #[deny(warnings)]; #[allow(unused_variable, dead_assignment, unused_mut, attribute_usage, dead_code)]; // FIXME: remove when ~[] disappears from tests. #[allow(deprecated_owned_vector)]; "; if loose_feature_gating { // FIXME #12773: avoid inserting these when the tutorial & manual // etc. have been updated to not use them so prolifically. prog.push_str("#[ feature(macro_rules, globs, struct_variant, managed_boxes) ];\n"); } if !s.contains("extern crate") { if s.contains(cratename) { prog.push_str(format!("extern crate {};\n", cratename)); } } if s.contains("fn main") { prog.push_str(s); } else { prog.push_str("fn main() {\n"); prog.push_str(s); prog.push_str("\n}"); } return prog; } pub struct Collector { pub tests: Vec, names: Vec<~str>, libs: HashSet, cnt: uint, use_headers: bool, current_header: Option<~str>, cratename: ~str, loose_feature_gating: bool } impl Collector { pub fn new(cratename: ~str, libs: HashSet, use_headers: bool, loose_feature_gating: bool) -> Collector { Collector { tests: Vec::new(), names: Vec::new(), libs: libs, cnt: 0, use_headers: use_headers, current_header: None, cratename: cratename, loose_feature_gating: loose_feature_gating } } pub fn add_test(&mut self, test: ~str, should_fail: bool, no_run: bool) { let name = if self.use_headers { let s = self.current_header.as_ref().map(|s| s.as_slice()).unwrap_or(""); format!("{}_{}", s, self.cnt) } else { format!("{}_{}", self.names.connect("::"), self.cnt) }; self.cnt += 1; let libs = self.libs.clone(); let cratename = self.cratename.to_owned(); let loose_feature_gating = self.loose_feature_gating; debug!("Creating test {}: {}", name, test); self.tests.push(testing::TestDescAndFn { desc: testing::TestDesc { name: testing::DynTestName(name), ignore: false, should_fail: false, // compiler failures are test failures }, testfn: testing::DynTestFn(proc() { runtest(test, cratename, libs, should_fail, no_run, loose_feature_gating); }), }); } pub fn register_header(&mut self, name: &str, level: u32) { if self.use_headers && level == 1 { // we use these headings as test names, so it's good if // they're valid identifiers. let name = name.chars().enumerate().map(|(i, c)| { if (i == 0 && char::is_XID_start(c)) || (i != 0 && char::is_XID_continue(c)) { c } else { '_' } }).collect::<~str>(); // new header => reset count. self.cnt = 0; self.current_header = Some(name); } } } impl DocFolder for Collector { fn fold_item(&mut self, item: clean::Item) -> Option { let pushed = match item.name { Some(ref name) if name.len() == 0 => false, Some(ref name) => { self.names.push(name.to_owned()); true } None => false }; match item.doc_value() { Some(doc) => { self.cnt = 0; markdown::find_testable_code(doc, &mut *self); } None => {} } let ret = self.fold_item_recur(item); if pushed { self.names.pop(); } return ret; } }