// Copyright 2013-2014 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::env; use std::ffi::OsString; use std::io::prelude::*; use std::io; use std::path::{Path, PathBuf}; use std::panic::{self, AssertUnwindSafe}; use std::process::Command; use std::str; use rustc_data_structures::sync::Lrc; use std::sync::{Arc, Mutex}; use testing; use rustc_lint; use rustc::hir; use rustc::hir::intravisit; use rustc::session::{self, CompileIncomplete, config}; use rustc::session::config::{OutputType, OutputTypes, Externs, CodegenOptions}; use rustc::session::search_paths::{SearchPaths, PathKind}; use rustc_metadata::dynamic_lib::DynamicLibrary; use tempfile::Builder as TempFileBuilder; use rustc_driver::{self, driver, target_features, Compilation}; use rustc_driver::driver::phase_2_configure_and_expand; use rustc_metadata::cstore::CStore; use rustc_resolve::MakeGlobMap; use syntax::ast; use syntax::codemap::CodeMap; use syntax::edition::Edition; use syntax::feature_gate::UnstableFeatures; use syntax::with_globals; use syntax_pos::{BytePos, DUMMY_SP, Pos, Span, FileName}; use errors; use errors::emitter::ColorConfig; use clean::Attributes; use html::markdown; #[derive(Clone, Default)] pub struct TestOptions { /// Whether to disable the default `extern crate my_crate;` when creating doctests. pub no_crate_inject: bool, /// Whether to emit compilation warnings when compiling doctests. Setting this will suppress /// the default `#![allow(unused)]`. pub display_warnings: bool, /// Additional crate-level attributes to add to doctests. pub attrs: Vec, } pub fn run(input_path: &Path, cfgs: Vec, libs: SearchPaths, externs: Externs, mut test_args: Vec, crate_name: Option, maybe_sysroot: Option, display_warnings: bool, linker: Option, edition: Edition, cg: CodegenOptions) -> isize { let input = config::Input::File(input_path.to_owned()); let sessopts = config::Options { maybe_sysroot: maybe_sysroot.clone().or_else( || Some(env::current_exe().unwrap().parent().unwrap().parent().unwrap().to_path_buf())), search_paths: libs.clone(), crate_types: vec![config::CrateTypeDylib], cg: cg.clone(), externs: externs.clone(), unstable_features: UnstableFeatures::from_environment(), lint_cap: Some(::rustc::lint::Level::Allow), actually_rustdoc: true, debugging_opts: config::DebuggingOptions { ..config::basic_debugging_options() }, edition, ..config::basic_options().clone() }; driver::spawn_thread_pool(sessopts, |sessopts| { let codemap = Lrc::new(CodeMap::new(sessopts.file_path_mapping())); let handler = errors::Handler::with_tty_emitter(ColorConfig::Auto, true, false, Some(codemap.clone())); let mut sess = session::build_session_( sessopts, Some(input_path.to_owned()), handler, codemap.clone(), ); let codegen_backend = rustc_driver::get_codegen_backend(&sess); let cstore = CStore::new(codegen_backend.metadata_loader()); rustc_lint::register_builtins(&mut sess.lint_store.borrow_mut(), Some(&sess)); let mut cfg = config::build_configuration(&sess, config::parse_cfgspecs(cfgs.clone())); target_features::add_configuration(&mut cfg, &sess, &*codegen_backend); sess.parse_sess.config = cfg; let krate = panictry!(driver::phase_1_parse_input(&driver::CompileController::basic(), &sess, &input)); let driver::ExpansionResult { defs, mut hir_forest, .. } = { phase_2_configure_and_expand( &sess, &cstore, krate, None, "rustdoc-test", None, MakeGlobMap::No, |_| Ok(()), ).expect("phase_2_configure_and_expand aborted in rustdoc!") }; let crate_name = crate_name.unwrap_or_else(|| { ::rustc_codegen_utils::link::find_crate_name(None, &hir_forest.krate().attrs, &input) }); let mut opts = scrape_test_config(hir_forest.krate()); opts.display_warnings |= display_warnings; let mut collector = Collector::new( crate_name, cfgs, libs, cg, externs, false, opts, maybe_sysroot, Some(codemap), None, linker, edition ); { let map = hir::map::map_crate(&sess, &cstore, &mut hir_forest, &defs); let krate = map.krate(); let mut hir_collector = HirCollector { sess: &sess, collector: &mut collector, map: &map }; hir_collector.visit_testable("".to_string(), &krate.attrs, |this| { intravisit::walk_crate(this, krate); }); } test_args.insert(0, "rustdoctest".to_string()); testing::test_main(&test_args, collector.tests.into_iter().collect(), testing::Options::new().display_output(display_warnings)); 0 }) } // Look for #![doc(test(no_crate_inject))], used by crates in the std facade fn scrape_test_config(krate: &::rustc::hir::Crate) -> TestOptions { use syntax::print::pprust; let mut opts = TestOptions { no_crate_inject: false, display_warnings: false, attrs: Vec::new(), }; let test_attrs: Vec<_> = krate.attrs.iter() .filter(|a| a.check_name("doc")) .flat_map(|a| a.meta_item_list().unwrap_or_else(Vec::new)) .filter(|a| a.check_name("test")) .collect(); let attrs = test_attrs.iter().flat_map(|a| a.meta_item_list().unwrap_or(&[])); for attr in attrs { if attr.check_name("no_crate_inject") { opts.no_crate_inject = true; } if attr.check_name("attr") { if let Some(l) = attr.meta_item_list() { for item in l { opts.attrs.push(pprust::meta_list_item_to_string(item)); } } } } opts } fn run_test(test: &str, cratename: &str, filename: &FileName, line: usize, cfgs: Vec, libs: SearchPaths, cg: CodegenOptions, externs: Externs, should_panic: bool, no_run: bool, as_test_harness: bool, compile_fail: bool, mut error_codes: Vec, opts: &TestOptions, maybe_sysroot: Option, linker: Option, edition: Edition) { // the test harness wants its own `main` & top level functions, so // never wrap the test in `fn main() { ... }` let (test, line_offset) = make_test(test, Some(cratename), as_test_harness, opts); // FIXME(#44940): if doctests ever support path remapping, then this filename // needs to be the result of CodeMap::span_to_unmapped_path let input = config::Input::Str { name: filename.to_owned(), input: test.to_owned(), }; let outputs = OutputTypes::new(&[(OutputType::Exe, None)]); let sessopts = config::Options { maybe_sysroot: maybe_sysroot.or_else( || Some(env::current_exe().unwrap().parent().unwrap().parent().unwrap().to_path_buf())), search_paths: libs, crate_types: vec![config::CrateTypeExecutable], output_types: outputs, externs, cg: config::CodegenOptions { prefer_dynamic: true, linker, ..cg }, test: as_test_harness, unstable_features: UnstableFeatures::from_environment(), debugging_opts: config::DebuggingOptions { ..config::basic_debugging_options() }, edition, ..config::basic_options().clone() }; let (libdir, outdir) = driver::spawn_thread_pool(sessopts, |sessopts| { // 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 thread-local stderr (likely set by the test runner) and replace // it with a sink that is also passed to rustc itself. When this function // returns the output of the sink is copied onto the output of our own thread. // // The basic idea is to not use a default Handler for rustc, and then also // not print things by default to the actual stderr. struct Sink(Arc>>); impl Write for Sink { fn write(&mut self, data: &[u8]) -> io::Result { Write::write(&mut *self.0.lock().unwrap(), data) } fn flush(&mut self) -> io::Result<()> { Ok(()) } } struct Bomb(Arc>>, Box); impl Drop for Bomb { fn drop(&mut self) { let _ = self.1.write_all(&self.0.lock().unwrap()); } } let data = Arc::new(Mutex::new(Vec::new())); let codemap = Lrc::new(CodeMap::new_doctest( sessopts.file_path_mapping(), filename.clone(), line as isize - line_offset as isize )); let emitter = errors::emitter::EmitterWriter::new(box Sink(data.clone()), Some(codemap.clone()), false, false); let old = io::set_panic(Some(box Sink(data.clone()))); let _bomb = Bomb(data.clone(), old.unwrap_or(box io::stdout())); // Compile the code let diagnostic_handler = errors::Handler::with_emitter(true, false, box emitter); let mut sess = session::build_session_( sessopts, None, diagnostic_handler, codemap, ); let codegen_backend = rustc_driver::get_codegen_backend(&sess); let cstore = CStore::new(codegen_backend.metadata_loader()); rustc_lint::register_builtins(&mut sess.lint_store.borrow_mut(), Some(&sess)); let outdir = Mutex::new( TempFileBuilder::new().prefix("rustdoctest").tempdir().expect("rustdoc needs a tempdir") ); let libdir = sess.target_filesearch(PathKind::All).get_lib_path(); let mut control = driver::CompileController::basic(); let mut cfg = config::build_configuration(&sess, config::parse_cfgspecs(cfgs.clone())); target_features::add_configuration(&mut cfg, &sess, &*codegen_backend); sess.parse_sess.config = cfg; let out = Some(outdir.lock().unwrap().path().to_path_buf()); if no_run { control.after_analysis.stop = Compilation::Stop; } let res = panic::catch_unwind(AssertUnwindSafe(|| { driver::compile_input( codegen_backend, &sess, &cstore, &None, &input, &out, &None, None, &control ) })); let compile_result = match res { Ok(Ok(())) | Ok(Err(CompileIncomplete::Stopped)) => Ok(()), Err(_) | Ok(Err(CompileIncomplete::Errored(_))) => Err(()) }; match (compile_result, compile_fail) { (Ok(()), true) => { panic!("test compiled while it wasn't supposed to") } (Ok(()), false) => {} (Err(()), true) => { if error_codes.len() > 0 { let out = String::from_utf8(data.lock().unwrap().to_vec()).unwrap(); error_codes.retain(|err| !out.contains(err)); } } (Err(()), false) => { panic!("couldn't compile the test") } } if error_codes.len() > 0 { panic!("Some expected error codes were not found: {:?}", error_codes); } (libdir, outdir) }); if no_run { return } // Run the code! // // We're careful to prepend the *target* dylib search path to the child's // environment to ensure that the target loads the right libraries at // runtime. It would be a sad day if the *host* libraries were loaded as a // mistake. let mut cmd = Command::new(&outdir.lock().unwrap().path().join("rust_out")); let var = DynamicLibrary::envvar(); let newpath = { let path = env::var_os(var).unwrap_or(OsString::new()); let mut path = env::split_paths(&path).collect::>(); path.insert(0, libdir.clone()); env::join_paths(path).unwrap() }; cmd.env(var, &newpath); match cmd.output() { Err(e) => panic!("couldn't run the test: {}{}", e, if e.kind() == io::ErrorKind::PermissionDenied { " - maybe your tempdir is mounted with noexec?" } else { "" }), Ok(out) => { if should_panic && out.status.success() { panic!("test executable succeeded when it should have failed"); } else if !should_panic && !out.status.success() { panic!("test executable failed:\n{}\n{}\n", str::from_utf8(&out.stdout).unwrap_or(""), str::from_utf8(&out.stderr).unwrap_or("")); } } } } /// Makes the test file. Also returns the number of lines before the code begins pub fn make_test(s: &str, cratename: Option<&str>, dont_insert_main: bool, opts: &TestOptions) -> (String, usize) { let (crate_attrs, everything_else) = partition_source(s); let everything_else = everything_else.trim(); let mut line_offset = 0; let mut prog = String::new(); if opts.attrs.is_empty() && !opts.display_warnings { // If there aren't any attributes supplied by #![doc(test(attr(...)))], then allow some // lints that are commonly triggered in doctests. The crate-level test attributes are // commonly used to make tests fail in case they trigger warnings, so having this there in // that case may cause some tests to pass when they shouldn't have. prog.push_str("#![allow(unused)]\n"); line_offset += 1; } // Next, any attributes that came from the crate root via #![doc(test(attr(...)))]. for attr in &opts.attrs { prog.push_str(&format!("#![{}]\n", attr)); line_offset += 1; } // Now push any outer attributes from the example, assuming they // are intended to be crate attributes. prog.push_str(&crate_attrs); // Don't inject `extern crate std` because it's already injected by the // compiler. if !s.contains("extern crate") && !opts.no_crate_inject && cratename != Some("std") { if let Some(cratename) = cratename { if s.contains(cratename) { prog.push_str(&format!("extern crate {};\n", cratename)); line_offset += 1; } } } // FIXME (#21299): prefer libsyntax or some other actual parser over this // best-effort ad hoc approach let already_has_main = s.lines() .map(|line| { let comment = line.find("//"); if let Some(comment_begins) = comment { &line[0..comment_begins] } else { line } }) .any(|code| code.contains("fn main")); if dont_insert_main || already_has_main { prog.push_str(everything_else); } else { prog.push_str("fn main() {\n"); line_offset += 1; prog.push_str(everything_else); prog.push_str("\n}"); } info!("final test program: {}", prog); (prog, line_offset) } // FIXME(aburka): use a real parser to deal with multiline attributes fn partition_source(s: &str) -> (String, String) { let mut after_header = false; let mut before = String::new(); let mut after = String::new(); for line in s.lines() { let trimline = line.trim(); let header = trimline.chars().all(|c| c.is_whitespace()) || trimline.starts_with("#![") || trimline.starts_with("#[macro_use] extern crate") || trimline.starts_with("extern crate"); if !header || after_header { after_header = true; after.push_str(line); after.push_str("\n"); } else { before.push_str(line); before.push_str("\n"); } } (before, after) } pub struct Collector { pub tests: Vec, // The name of the test displayed to the user, separated by `::`. // // In tests from Rust source, this is the path to the item // e.g. `["std", "vec", "Vec", "push"]`. // // In tests from a markdown file, this is the titles of all headers (h1~h6) // of the sections that contain the code block, e.g. if the markdown file is // written as: // // ``````markdown // # Title // // ## Subtitle // // ```rust // assert!(true); // ``` // `````` // // the `names` vector of that test will be `["Title", "Subtitle"]`. names: Vec, cfgs: Vec, libs: SearchPaths, cg: CodegenOptions, externs: Externs, use_headers: bool, cratename: String, opts: TestOptions, maybe_sysroot: Option, position: Span, codemap: Option>, filename: Option, linker: Option, edition: Edition, } impl Collector { pub fn new(cratename: String, cfgs: Vec, libs: SearchPaths, cg: CodegenOptions, externs: Externs, use_headers: bool, opts: TestOptions, maybe_sysroot: Option, codemap: Option>, filename: Option, linker: Option, edition: Edition) -> Collector { Collector { tests: Vec::new(), names: Vec::new(), cfgs, libs, cg, externs, use_headers, cratename, opts, maybe_sysroot, position: DUMMY_SP, codemap, filename, linker, edition, } } fn generate_name(&self, line: usize, filename: &FileName) -> String { format!("{} - {} (line {})", filename, self.names.join("::"), line) } pub fn add_test(&mut self, test: String, should_panic: bool, no_run: bool, should_ignore: bool, as_test_harness: bool, compile_fail: bool, error_codes: Vec, line: usize, filename: FileName, allow_fail: bool) { let name = self.generate_name(line, &filename); let cfgs = self.cfgs.clone(); let libs = self.libs.clone(); let cg = self.cg.clone(); let externs = self.externs.clone(); let cratename = self.cratename.to_string(); let opts = self.opts.clone(); let maybe_sysroot = self.maybe_sysroot.clone(); let linker = self.linker.clone(); let edition = self.edition; debug!("Creating test {}: {}", name, test); self.tests.push(testing::TestDescAndFn { desc: testing::TestDesc { name: testing::DynTestName(name), ignore: should_ignore, // compiler failures are test failures should_panic: testing::ShouldPanic::No, allow_fail, }, testfn: testing::DynTestFn(box move || { let panic = io::set_panic(None); let print = io::set_print(None); match { rustc_driver::in_rustc_thread(move || with_globals(move || { io::set_panic(panic); io::set_print(print); run_test(&test, &cratename, &filename, line, cfgs, libs, cg, externs, should_panic, no_run, as_test_harness, compile_fail, error_codes, &opts, maybe_sysroot, linker, edition) })) } { Ok(()) => (), Err(err) => panic::resume_unwind(err), } }), }); } pub fn get_line(&self) -> usize { if let Some(ref codemap) = self.codemap { let line = self.position.lo().to_usize(); let line = codemap.lookup_char_pos(BytePos(line as u32)).line; if line > 0 { line - 1 } else { line } } else { 0 } } pub fn set_position(&mut self, position: Span) { self.position = position; } pub fn get_filename(&self) -> FileName { if let Some(ref codemap) = self.codemap { let filename = codemap.span_to_filename(self.position); if let FileName::Real(ref filename) = filename { if let Ok(cur_dir) = env::current_dir() { if let Ok(path) = filename.strip_prefix(&cur_dir) { return path.to_owned().into(); } } } filename } else if let Some(ref filename) = self.filename { filename.clone().into() } else { FileName::Custom("input".to_owned()) } } pub fn register_header(&mut self, name: &str, level: u32) { if self.use_headers { // 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 && c.is_xid_start()) || (i != 0 && c.is_xid_continue()) { c } else { '_' } }).collect::(); // Here we try to efficiently assemble the header titles into the // test name in the form of `h1::h2::h3::h4::h5::h6`. // // Suppose originally `self.names` contains `[h1, h2, h3]`... let level = level as usize; if level <= self.names.len() { // ... Consider `level == 2`. All headers in the lower levels // are irrelevant in this new level. So we should reset // `self.names` to contain headers until

, and replace that // slot with the new name: `[h1, name]`. self.names.truncate(level); self.names[level - 1] = name; } else { // ... On the other hand, consider `level == 5`. This means we // need to extend `self.names` to contain five headers. We fill // in the missing level (

) with `_`. Thus `self.names` will // become `[h1, h2, h3, "_", name]`. if level - 1 > self.names.len() { self.names.resize(level - 1, "_".to_owned()); } self.names.push(name); } } } } struct HirCollector<'a, 'hir: 'a> { sess: &'a session::Session, collector: &'a mut Collector, map: &'a hir::map::Map<'hir> } impl<'a, 'hir> HirCollector<'a, 'hir> { fn visit_testable(&mut self, name: String, attrs: &[ast::Attribute], nested: F) { let mut attrs = Attributes::from_ast(self.sess.diagnostic(), attrs); if let Some(ref cfg) = attrs.cfg { if !cfg.matches(&self.sess.parse_sess, Some(&self.sess.features_untracked())) { return; } } let has_name = !name.is_empty(); if has_name { self.collector.names.push(name); } attrs.collapse_doc_comments(); attrs.unindent_doc_comments(); // the collapse-docs pass won't combine sugared/raw doc attributes, or included files with // anything else, this will combine them for us if let Some(doc) = attrs.collapsed_doc_value() { markdown::find_testable_code(&doc, self.collector, attrs.span.unwrap_or(DUMMY_SP), Some(self.sess)); } nested(self); if has_name { self.collector.names.pop(); } } } impl<'a, 'hir> intravisit::Visitor<'hir> for HirCollector<'a, 'hir> { fn nested_visit_map<'this>(&'this mut self) -> intravisit::NestedVisitorMap<'this, 'hir> { intravisit::NestedVisitorMap::All(&self.map) } fn visit_item(&mut self, item: &'hir hir::Item) { let name = if let hir::ItemImpl(.., ref ty, _) = item.node { self.map.node_to_pretty_string(ty.id) } else { item.name.to_string() }; self.visit_testable(name, &item.attrs, |this| { intravisit::walk_item(this, item); }); } fn visit_trait_item(&mut self, item: &'hir hir::TraitItem) { self.visit_testable(item.name.to_string(), &item.attrs, |this| { intravisit::walk_trait_item(this, item); }); } fn visit_impl_item(&mut self, item: &'hir hir::ImplItem) { self.visit_testable(item.name.to_string(), &item.attrs, |this| { intravisit::walk_impl_item(this, item); }); } fn visit_foreign_item(&mut self, item: &'hir hir::ForeignItem) { self.visit_testable(item.name.to_string(), &item.attrs, |this| { intravisit::walk_foreign_item(this, item); }); } fn visit_variant(&mut self, v: &'hir hir::Variant, g: &'hir hir::Generics, item_id: ast::NodeId) { self.visit_testable(v.node.name.to_string(), &v.node.attrs, |this| { intravisit::walk_variant(this, v, g, item_id); }); } fn visit_struct_field(&mut self, f: &'hir hir::StructField) { self.visit_testable(f.ident.to_string(), &f.attrs, |this| { intravisit::walk_struct_field(this, f); }); } fn visit_macro_def(&mut self, macro_def: &'hir hir::MacroDef) { self.visit_testable(macro_def.name.to_string(), ¯o_def.attrs, |_| ()); } } #[cfg(test)] mod tests { use super::{TestOptions, make_test}; #[test] fn make_test_basic() { //basic use: wraps with `fn main`, adds `#![allow(unused)]` let opts = TestOptions::default(); let input = "assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] fn main() { assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, None, false, &opts); assert_eq!(output, (expected.clone(), 2)); } #[test] fn make_test_crate_name_no_use() { //if you give a crate name but *don't* use it within the test, it won't bother inserting //the `extern crate` statement let opts = TestOptions::default(); let input = "assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] fn main() { assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 2)); } #[test] fn make_test_crate_name() { //if you give a crate name and use it within the test, it will insert an `extern crate` //statement before `fn main` let opts = TestOptions::default(); let input = "use asdf::qwop; assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] extern crate asdf; fn main() { use asdf::qwop; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 3)); } #[test] fn make_test_no_crate_inject() { //even if you do use the crate within the test, setting `opts.no_crate_inject` will skip //adding it anyway let opts = TestOptions { no_crate_inject: true, display_warnings: false, attrs: vec![], }; let input = "use asdf::qwop; assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] fn main() { use asdf::qwop; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 2)); } #[test] fn make_test_ignore_std() { //even if you include a crate name, and use it in the doctest, we still won't include an //`extern crate` statement if the crate is "std" - that's included already by the compiler! let opts = TestOptions::default(); let input = "use std::*; assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] fn main() { use std::*; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("std"), false, &opts); assert_eq!(output, (expected, 2)); } #[test] fn make_test_manual_extern_crate() { //when you manually include an `extern crate` statement in your doctest, make_test assumes //you've included one for your own crate too let opts = TestOptions::default(); let input = "extern crate asdf; use asdf::qwop; assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] extern crate asdf; fn main() { use asdf::qwop; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 2)); } #[test] fn make_test_manual_extern_crate_with_macro_use() { let opts = TestOptions::default(); let input = "#[macro_use] extern crate asdf; use asdf::qwop; assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] #[macro_use] extern crate asdf; fn main() { use asdf::qwop; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 2)); } #[test] fn make_test_opts_attrs() { //if you supplied some doctest attributes with #![doc(test(attr(...)))], it will use those //instead of the stock #![allow(unused)] let mut opts = TestOptions::default(); opts.attrs.push("feature(sick_rad)".to_string()); let input = "use asdf::qwop; assert_eq!(2+2, 4);"; let expected = "#![feature(sick_rad)] extern crate asdf; fn main() { use asdf::qwop; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 3)); //adding more will also bump the returned line offset opts.attrs.push("feature(hella_dope)".to_string()); let expected = "#![feature(sick_rad)] #![feature(hella_dope)] extern crate asdf; fn main() { use asdf::qwop; assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, Some("asdf"), false, &opts); assert_eq!(output, (expected, 4)); } #[test] fn make_test_crate_attrs() { //including inner attributes in your doctest will apply them to the whole "crate", pasting //them outside the generated main function let opts = TestOptions::default(); let input = "#![feature(sick_rad)] assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] #![feature(sick_rad)] fn main() { assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, None, false, &opts); assert_eq!(output, (expected, 2)); } #[test] fn make_test_with_main() { //including your own `fn main` wrapper lets the test use it verbatim let opts = TestOptions::default(); let input = "fn main() { assert_eq!(2+2, 4); }"; let expected = "#![allow(unused)] fn main() { assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, None, false, &opts); assert_eq!(output, (expected, 1)); } #[test] fn make_test_fake_main() { //...but putting it in a comment will still provide a wrapper let opts = TestOptions::default(); let input = "//Ceci n'est pas une `fn main` assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] fn main() { //Ceci n'est pas une `fn main` assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, None, false, &opts); assert_eq!(output, (expected.clone(), 2)); } #[test] fn make_test_dont_insert_main() { //even with that, if you set `dont_insert_main`, it won't create the `fn main` wrapper let opts = TestOptions::default(); let input = "//Ceci n'est pas une `fn main` assert_eq!(2+2, 4);"; let expected = "#![allow(unused)] //Ceci n'est pas une `fn main` assert_eq!(2+2, 4);".to_string(); let output = make_test(input, None, true, &opts); assert_eq!(output, (expected.clone(), 1)); } #[test] fn make_test_display_warnings() { //if the user is asking to display doctest warnings, suppress the default allow(unused) let mut opts = TestOptions::default(); opts.display_warnings = true; let input = "assert_eq!(2+2, 4);"; let expected = "fn main() { assert_eq!(2+2, 4); }".to_string(); let output = make_test(input, None, false, &opts); assert_eq!(output, (expected.clone(), 1)); } }