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;
use std::char;
use std::io;
use std::io::{Command, TempDir};
use std::os;
use std::str;
use std::string::String;
use std::unstable::dynamic_lib::DynamicLibrary;
use std::collections::{HashSet, HashMap};
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use testing;
Redesign output flags for rustc This commit removes the -c, --emit-llvm, -s, --rlib, --dylib, --staticlib, --lib, and --bin flags from rustc, adding the following flags: * --emit=[asm,ir,bc,obj,link] * --crate-type=[dylib,rlib,staticlib,bin,lib] The -o option has also been redefined to be used for *all* flavors of outputs. This means that we no longer ignore it for libraries. The --out-dir remains the same as before. The new logic for files that rustc emits is as follows: 1. Output types are dictated by the --emit flag. The default value is --emit=link, and this option can be passed multiple times and have all options stacked on one another. 2. Crate types are dictated by the --crate-type flag and the #[crate_type] attribute. The flags can be passed many times and stack with the crate attribute. 3. If the -o flag is specified, and only one output type is specified, the output will be emitted at this location. If more than one output type is specified, then the filename of -o is ignored, and all output goes in the directory that -o specifies. The -o option always ignores the --out-dir option. 4. If the --out-dir flag is specified, all output goes in this directory. 5. If -o and --out-dir are both not present, all output goes in the current directory of the process. 6. When multiple output types are specified, the filestem of all output is the same as the name of the CrateId (derived from a crate attribute or from the filestem of the crate file). Closes #7791 Closes #11056 Closes #11667
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use rustc::back::link;
use rustc::driver::config;
use rustc::driver::driver;
use rustc::driver::session;
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use rustc::metadata::creader::Loader;
use syntax::ast;
use syntax::codemap::{CodeMap, dummy_spanned};
use syntax::diagnostic;
use syntax::parse::token;
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: HashSet<Path>,
mut test_args: Vec<String>)
-> int {
let input_path = Path::new(input);
let input = driver::FileInput(input_path.clone());
let sessopts = config::Options {
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maybe_sysroot: Some(os::self_exe_path().unwrap().dir_path()),
addl_lib_search_paths: RefCell::new(libs.clone()),
crate_types: vec!(config::CrateTypeDylib),
..config::basic_options().clone()
};
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let codemap = CodeMap::new();
let diagnostic_handler = diagnostic::default_handler(diagnostic::Auto);
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);
cfg.extend(cfgs.move_iter().map(|cfg_| {
let cfg_ = token::intern_and_get_ident(cfg_.as_slice());
@dummy_spanned(ast::MetaWord(cfg_))
}));
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let krate = driver::phase_1_parse_input(&sess, cfg, &input);
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let (krate, _) = driver::phase_2_configure_and_expand(&sess, &mut Loader::new(&sess), krate,
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&from_str("rustdoc-test").unwrap());
let ctx = @core::DocContext {
krate: krate,
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maybe_typed: core::NotTyped(sess),
src: input_path,
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()),
};
super::ctxtkey.replace(Some(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_string(),
libs,
false);
collector.fold_crate(krate);
test_args.unshift("rustdoctest".to_string());
testing::test_main(test_args.as_slice(),
collector.tests.move_iter().collect());
0
}
fn runtest(test: &str, cratename: &str, libs: HashSet<Path>, should_fail: bool,
no_run: bool) {
let test = maketest(test, cratename);
let input = driver::StrInput(test.to_string());
let sessopts = config::Options {
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maybe_sysroot: Some(os::self_exe_path().unwrap().dir_path()),
addl_lib_search_paths: RefCell::new(libs),
crate_types: vec!(config::CrateTypeExecutable),
output_types: vec!(link::OutputTypeExe),
no_trans: no_run,
cg: config::CodegenOptions {
prefer_dynamic: true,
.. config::basic_codegen_options()
},
..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();
let w1 = io::ChanWriter::new(tx);
let w2 = w1.clone();
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let old = io::stdio::set_stderr(box w1);
spawn(proc() {
let mut p = io::ChanReader::new(rx);
let mut err = old.unwrap_or(box io::stderr() as Box<Writer:Send>);
io::util::copy(&mut p, &mut err).unwrap();
});
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let emitter = diagnostic::EmitterWriter::new(box w2);
// Compile the code
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let codemap = CodeMap::new();
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let diagnostic_handler = diagnostic::mk_handler(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").expect("rustdoc needs a tempdir");
let out = Some(outdir.path().clone());
let cfg = config::build_configuration(&sess);
let libdir = sess.target_filesearch().get_lib_path();
driver::compile_input(sess, cfg, &input, &out, &None);
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 exe = outdir.path().join("rust_out");
let env = {
let mut path = DynamicLibrary::search_path();
path.insert(0, libdir.clone());
// Remove the previous dylib search path var
let var = DynamicLibrary::envvar();
let mut env: Vec<(String,String)> = os::env().move_iter().collect();
match env.iter().position(|&(ref k, _)| k.as_slice() == var) {
Some(i) => { env.remove(i); }
None => {}
};
// Add the new dylib search path var
let newpath = DynamicLibrary::create_path(path.as_slice());
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env.push((var.to_string(),
str::from_utf8(newpath.as_slice()).unwrap().to_string()));
env
};
match Command::new(exe).env(env.as_slice()).output() {
Err(e) => fail!("couldn't run the test: {}{}", e,
if e.kind == io::PermissionDenied {
" - maybe your tempdir is mounted with noexec?"
} else { "" }),
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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.as_slice()));
}
}
}
}
pub fn maketest(s: &str, cratename: &str) -> String {
let mut prog = String::from_str(r"
#![deny(warnings)]
#![allow(unused_variable, dead_assignment, unused_mut, attribute_usage, dead_code)]
");
if !s.contains("extern crate") {
if s.contains(cratename) {
prog.push_str(format!("extern crate {};\n",
cratename).as_slice());
}
}
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<testing::TestDescAndFn>,
names: Vec<String>,
libs: HashSet<Path>,
cnt: uint,
use_headers: bool,
current_header: Option<String>,
cratename: String,
}
impl Collector {
pub fn new(cratename: String, libs: HashSet<Path>,
use_headers: bool) -> Collector {
Collector {
tests: Vec::new(),
names: Vec::new(),
libs: libs,
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) {
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();
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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: false, // compiler failures are test failures
},
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testfn: testing::DynTestFn(proc() {
runtest(test.as_slice(),
cratename.as_slice(),
libs,
should_fail,
no_run);
}),
});
}
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::<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;
}
}