rust/src/librustdoc/test.rs

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// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use std::cell::RefCell;
std: Second pass stabilization for `comm` This commit is a second pass stabilization for the `std::comm` module, performing the following actions: * The entire `std::comm` module was moved under `std::sync::mpsc`. This movement reflects that channels are just yet another synchronization primitive, and they don't necessarily deserve a special place outside of the other concurrency primitives that the standard library offers. * The `send` and `recv` methods have all been removed. * The `send_opt` and `recv_opt` methods have been renamed to `send` and `recv`. This means that all send/receive operations return a `Result` now indicating whether the operation was successful or not. * The error type of `send` is now a `SendError` to implement a custom error message and allow for `unwrap()`. The error type contains an `into_inner` method to extract the value. * The error type of `recv` is now `RecvError` for the same reasons as `send`. * The `TryRecvError` and `TrySendError` types have had public reexports removed of their variants and the variant names have been tweaked with enum namespacing rules. * The `Messages` iterator is renamed to `Iter` This functionality is now all `#[stable]`: * `Sender` * `SyncSender` * `Receiver` * `std::sync::mpsc` * `channel` * `sync_channel` * `Iter` * `Sender::send` * `Sender::clone` * `SyncSender::send` * `SyncSender::try_send` * `SyncSender::clone` * `Receiver::recv` * `Receiver::try_recv` * `Receiver::iter` * `SendError` * `RecvError` * `TrySendError::{mod, Full, Disconnected}` * `TryRecvError::{mod, Empty, Disconnected}` * `SendError::into_inner` * `TrySendError::into_inner` This is a breaking change due to the modification of where this module is located, as well as the changing of the semantics of `send` and `recv`. Most programs just need to rename imports of `std::comm` to `std::sync::mpsc` and add calls to `unwrap` after a send or a receive operation. [breaking-change]
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use std::sync::mpsc::channel;
use std::dynamic_lib::DynamicLibrary;
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use std::old_io::{Command, TempDir};
use std::old_io;
use std::os;
use std::str;
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use std::thread::Thread;
use std::thunk::Thunk;
use std::collections::{HashSet, HashMap};
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use testing;
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use rustc::session::{self, config};
use rustc::session::search_paths::{SearchPaths, PathKind};
Preliminary feature staging This partially implements the feature staging described in the [release channel RFC][rc]. It does not yet fully conform to the RFC as written, but does accomplish its goals sufficiently for the 1.0 alpha release. It has three primary user-visible effects: * On the nightly channel, use of unstable APIs generates a warning. * On the beta channel, use of unstable APIs generates a warning. * On the beta channel, use of feature gates generates a warning. Code that does not trigger these warnings is considered 'stable', modulo pre-1.0 bugs. Disabling the warnings for unstable APIs continues to be done in the existing (i.e. old) style, via `#[allow(...)]`, not that specified in the RFC. I deem this marginally acceptable since any code that must do this is not using the stable dialect of Rust. Use of feature gates is itself gated with the new 'unstable_features' lint, on nightly set to 'allow', and on beta 'warn'. The attribute scheme used here corresponds to an older version of the RFC, with the `#[staged_api]` crate attribute toggling the staging behavior of the stability attributes, but the user impact is only in-tree so I'm not concerned about having to make design changes later (and I may ultimately prefer the scheme here after all, with the `#[staged_api]` crate attribute). Since the Rust codebase itself makes use of unstable features the compiler and build system to a midly elaborate dance to allow it to bootstrap while disobeying these lints (which would otherwise be errors because Rust builds with `-D warnings`). This patch includes one significant hack that causes a regression. Because the `format_args!` macro emits calls to unstable APIs it would trigger the lint. I added a hack to the lint to make it not trigger, but this in turn causes arguments to `println!` not to be checked for feature gates. I don't presently understand macro expansion well enough to fix. This is bug #20661. Closes #16678 [rc]: https://github.com/rust-lang/rfcs/blob/master/text/0507-release-channels.md
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use rustc_driver::get_unstable_features_setting;
use rustc_driver::driver;
use syntax::ast;
use syntax::codemap::{CodeMap, dummy_spanned};
use syntax::diagnostic;
use syntax::parse::token;
use syntax::ptr::P;
use core;
use clean;
use clean::Clean;
use fold::DocFolder;
use html::markdown;
use passes;
use visit_ast::RustdocVisitor;
pub fn run(input: &str,
cfgs: Vec<String>,
libs: SearchPaths,
externs: core::Externs,
mut test_args: Vec<String>,
crate_name: Option<String>)
-> int {
let input_path = Path::new(input);
let input = config::Input::File(input_path.clone());
let sessopts = config::Options {
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maybe_sysroot: Some(os::self_exe_path().unwrap().dir_path()),
search_paths: libs.clone(),
crate_types: vec!(config::CrateTypeDylib),
externs: externs.clone(),
Preliminary feature staging This partially implements the feature staging described in the [release channel RFC][rc]. It does not yet fully conform to the RFC as written, but does accomplish its goals sufficiently for the 1.0 alpha release. It has three primary user-visible effects: * On the nightly channel, use of unstable APIs generates a warning. * On the beta channel, use of unstable APIs generates a warning. * On the beta channel, use of feature gates generates a warning. Code that does not trigger these warnings is considered 'stable', modulo pre-1.0 bugs. Disabling the warnings for unstable APIs continues to be done in the existing (i.e. old) style, via `#[allow(...)]`, not that specified in the RFC. I deem this marginally acceptable since any code that must do this is not using the stable dialect of Rust. Use of feature gates is itself gated with the new 'unstable_features' lint, on nightly set to 'allow', and on beta 'warn'. The attribute scheme used here corresponds to an older version of the RFC, with the `#[staged_api]` crate attribute toggling the staging behavior of the stability attributes, but the user impact is only in-tree so I'm not concerned about having to make design changes later (and I may ultimately prefer the scheme here after all, with the `#[staged_api]` crate attribute). Since the Rust codebase itself makes use of unstable features the compiler and build system to a midly elaborate dance to allow it to bootstrap while disobeying these lints (which would otherwise be errors because Rust builds with `-D warnings`). This patch includes one significant hack that causes a regression. Because the `format_args!` macro emits calls to unstable APIs it would trigger the lint. I added a hack to the lint to make it not trigger, but this in turn causes arguments to `println!` not to be checked for feature gates. I don't presently understand macro expansion well enough to fix. This is bug #20661. Closes #16678 [rc]: https://github.com/rust-lang/rfcs/blob/master/text/0507-release-channels.md
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unstable_features: get_unstable_features_setting(),
..config::basic_options().clone()
};
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let codemap = CodeMap::new();
let diagnostic_handler = diagnostic::default_handler(diagnostic::Auto, None, true);
let span_diagnostic_handler =
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diagnostic::mk_span_handler(diagnostic_handler, codemap);
let sess = session::build_session_(sessopts,
Some(input_path.clone()),
span_diagnostic_handler);
let mut cfg = config::build_configuration(&sess);
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cfg.extend(cfgs.into_iter().map(|cfg_| {
let cfg_ = token::intern_and_get_ident(cfg_.as_slice());
P(dummy_spanned(ast::MetaWord(cfg_)))
}));
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let krate = driver::phase_1_parse_input(&sess, cfg, &input);
let krate = driver::phase_2_configure_and_expand(&sess, krate,
"rustdoc-test", None)
.expect("phase_2_configure_and_expand aborted in rustdoc!");
let ctx = core::DocContext {
krate: &krate,
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maybe_typed: core::NotTyped(sess),
input: input,
external_paths: RefCell::new(Some(HashMap::new())),
external_traits: RefCell::new(None),
external_typarams: RefCell::new(None),
inlined: RefCell::new(None),
populated_crate_impls: RefCell::new(HashSet::new()),
};
let mut v = RustdocVisitor::new(&ctx, None);
v.visit(ctx.krate);
let mut krate = v.clean(&ctx);
match crate_name {
Some(name) => krate.name = name,
None => {}
}
let (krate, _) = passes::collapse_docs(krate);
let (krate, _) = passes::unindent_comments(krate);
let mut collector = Collector::new(krate.name.to_string(),
libs,
externs,
false);
collector.fold_crate(krate);
test_args.insert(0, "rustdoctest".to_string());
testing::test_main(test_args.as_slice(),
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collector.tests.into_iter().collect());
0
}
fn runtest(test: &str, cratename: &str, libs: SearchPaths,
externs: core::Externs,
should_fail: bool, no_run: bool, as_test_harness: bool) {
// the test harness wants its own `main` & top level functions, so
// never wrap the test in `fn main() { ... }`
let test = maketest(test, Some(cratename), true, as_test_harness);
let input = config::Input::Str(test.to_string());
let sessopts = config::Options {
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maybe_sysroot: Some(os::self_exe_path().unwrap().dir_path()),
search_paths: libs,
crate_types: vec!(config::CrateTypeExecutable),
output_types: vec!(config::OutputTypeExe),
externs: externs,
cg: config::CodegenOptions {
prefer_dynamic: true,
.. config::basic_codegen_options()
},
test: as_test_harness,
Preliminary feature staging This partially implements the feature staging described in the [release channel RFC][rc]. It does not yet fully conform to the RFC as written, but does accomplish its goals sufficiently for the 1.0 alpha release. It has three primary user-visible effects: * On the nightly channel, use of unstable APIs generates a warning. * On the beta channel, use of unstable APIs generates a warning. * On the beta channel, use of feature gates generates a warning. Code that does not trigger these warnings is considered 'stable', modulo pre-1.0 bugs. Disabling the warnings for unstable APIs continues to be done in the existing (i.e. old) style, via `#[allow(...)]`, not that specified in the RFC. I deem this marginally acceptable since any code that must do this is not using the stable dialect of Rust. Use of feature gates is itself gated with the new 'unstable_features' lint, on nightly set to 'allow', and on beta 'warn'. The attribute scheme used here corresponds to an older version of the RFC, with the `#[staged_api]` crate attribute toggling the staging behavior of the stability attributes, but the user impact is only in-tree so I'm not concerned about having to make design changes later (and I may ultimately prefer the scheme here after all, with the `#[staged_api]` crate attribute). Since the Rust codebase itself makes use of unstable features the compiler and build system to a midly elaborate dance to allow it to bootstrap while disobeying these lints (which would otherwise be errors because Rust builds with `-D warnings`). This patch includes one significant hack that causes a regression. Because the `format_args!` macro emits calls to unstable APIs it would trigger the lint. I added a hack to the lint to make it not trigger, but this in turn causes arguments to `println!` not to be checked for feature gates. I don't presently understand macro expansion well enough to fix. This is bug #20661. Closes #16678 [rc]: https://github.com/rust-lang/rfcs/blob/master/text/0507-release-channels.md
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unstable_features: get_unstable_features_setting(),
..config::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();
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let w1 = old_io::ChanWriter::new(tx);
let w2 = w1.clone();
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let old = old_io::stdio::set_stderr(box w1);
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Thread::spawn(move |:| {
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let mut p = old_io::ChanReader::new(rx);
let mut err = match old {
Some(old) => {
// Chop off the `Send` bound.
let old: Box<Writer> = old;
old
}
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None => box old_io::stderr() as Box<Writer>,
};
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old_io::util::copy(&mut p, &mut err).unwrap();
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});
let emitter = diagnostic::EmitterWriter::new(box w2, None);
// Compile the code
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let codemap = CodeMap::new();
let diagnostic_handler = diagnostic::mk_handler(true, box emitter);
let span_diagnostic_handler =
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diagnostic::mk_span_handler(diagnostic_handler, codemap);
let sess = session::build_session_(sessopts,
None,
span_diagnostic_handler);
let outdir = TempDir::new("rustdoctest").ok().expect("rustdoc needs a tempdir");
let out = Some(outdir.path().clone());
let cfg = config::build_configuration(&sess);
let libdir = sess.target_filesearch(PathKind::All).get_lib_path();
let mut control = driver::CompileController::basic();
if no_run {
control.after_analysis.stop = true;
}
driver::compile_input(sess, cfg, &input, &out, &None, None, control);
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.path().join("rust-out"));
let newpath = {
let mut path = DynamicLibrary::search_path();
path.insert(0, libdir.clone());
DynamicLibrary::create_path(path.as_slice())
};
cmd.env(DynamicLibrary::envvar(), newpath.as_slice());
match cmd.output() {
Err(e) => panic!("couldn't run the test: {}{}", e,
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if e.kind == old_io::PermissionDenied {
" - maybe your tempdir is mounted with noexec?"
} else { "" }),
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Ok(out) => {
if should_fail && out.status.success() {
panic!("test executable succeeded when it should have failed");
} else if !should_fail && !out.status.success() {
panic!("test executable failed:\n{:?}",
str::from_utf8(out.error.as_slice()));
}
}
}
}
pub fn maketest(s: &str, cratename: Option<&str>, lints: bool, dont_insert_main: bool) -> String {
let mut prog = String::new();
if lints {
prog.push_str(r"
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#![allow(unused_variables, unused_assignments, unused_mut, unused_attributes, dead_code)]
");
}
// Don't inject `extern crate std` because it's already injected by the
// compiler.
if !s.contains("extern crate") && cratename != Some("std") {
match cratename {
Some(cratename) => {
if s.contains(cratename) {
prog.push_str(format!("extern crate {};\n",
cratename).as_slice());
}
}
None => {}
}
}
if dont_insert_main || s.contains("fn main") {
prog.push_str(s);
} else {
prog.push_str("fn main() {\n ");
prog.push_str(s.replace("\n", "\n ").as_slice());
prog.push_str("\n}");
}
return prog
}
pub struct Collector {
pub tests: Vec<testing::TestDescAndFn>,
names: Vec<String>,
libs: SearchPaths,
externs: core::Externs,
cnt: uint,
use_headers: bool,
current_header: Option<String>,
cratename: String,
}
impl Collector {
pub fn new(cratename: String, libs: SearchPaths, externs: core::Externs,
use_headers: bool) -> Collector {
Collector {
tests: Vec::new(),
names: Vec::new(),
libs: libs,
externs: externs,
cnt: 0,
use_headers: use_headers,
current_header: None,
cratename: cratename,
}
}
pub fn add_test(&mut self, test: String,
should_fail: bool, no_run: bool, should_ignore: bool, as_test_harness: 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;
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let libs = self.libs.clone();
let externs = self.externs.clone();
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let cratename = self.cratename.to_string();
debug!("Creating test {}: {}", name, test);
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self.tests.push(testing::TestDescAndFn {
desc: testing::TestDesc {
name: testing::DynTestName(name),
ignore: should_ignore,
should_fail: testing::ShouldFail::No, // compiler failures are test failures
},
testfn: testing::DynTestFn(Thunk::new(move|| {
runtest(test.as_slice(),
cratename.as_slice(),
libs,
externs,
should_fail,
no_run,
as_test_harness);
}))
});
}
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 && c.is_xid_start()) ||
(i != 0 && c.is_xid_continue()) {
c
} else {
'_'
}
}).collect::<String>();
// 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<clean::Item> {
let pushed = match item.name {
Some(ref name) if name.len() == 0 => false,
Some(ref name) => { self.names.push(name.to_string()); 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;
}
}