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// Copyright 2016 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::collections::HashSet;
use build::{Build, Compiler};
#[derive(Hash, Eq, PartialEq, Clone, Debug)]
pub struct Step<'a> {
pub src: Source<'a>,
pub target: &'a str,
}
macro_rules! targets {
($m:ident) => {
$m! {
// Step representing building the stageN compiler. This is just the
// compiler executable itself, not any of the support libraries
(rustc, Rustc { stage: u32 }),
// Steps for the two main cargo builds. These are parameterized over
// the compiler which is producing the artifact.
(libstd, Libstd { compiler: Compiler<'a> }),
(libtest, Libtest { compiler: Compiler<'a> }),
(librustc, Librustc { compiler: Compiler<'a> }),
// Links the target produced by the compiler provided into the
// host's directory also provided.
(libstd_link, LibstdLink {
compiler: Compiler<'a>,
host: &'a str
}),
(libtest_link, LibtestLink {
compiler: Compiler<'a>,
host: &'a str
}),
(librustc_link, LibrustcLink {
compiler: Compiler<'a>,
host: &'a str
}),
// Various tools that we can build as part of the build.
(tool_linkchecker, ToolLinkchecker { stage: u32 }),
(tool_rustbook, ToolRustbook { stage: u32 }),
(tool_error_index, ToolErrorIndex { stage: u32 }),
(tool_cargotest, ToolCargoTest { stage: u32 }),
// Steps for long-running native builds. Ideally these wouldn't
// actually exist and would be part of build scripts, but for now
// these are here.
//
// There aren't really any parameters to this, but empty structs
// with braces are unstable so we just pick something that works.
(llvm, Llvm { _dummy: () }),
(compiler_rt, CompilerRt { _dummy: () }),
// Steps for various pieces of documentation that we can generate,
// the 'doc' step is just a pseudo target to depend on a bunch of
// others.
(doc, Doc { stage: u32 }),
(doc_book, DocBook { stage: u32 }),
(doc_nomicon, DocNomicon { stage: u32 }),
(doc_style, DocStyle { stage: u32 }),
(doc_standalone, DocStandalone { stage: u32 }),
(doc_std, DocStd { stage: u32 }),
(doc_test, DocTest { stage: u32 }),
(doc_rustc, DocRustc { stage: u32 }),
(doc_error_index, DocErrorIndex { stage: u32 }),
// Steps for running tests. The 'check' target is just a pseudo
// target to depend on a bunch of others.
(check, Check { stage: u32, compiler: Compiler<'a> }),
(check_linkcheck, CheckLinkcheck { stage: u32 }),
(check_cargotest, CheckCargoTest { stage: u32 }),
// Distribution targets, creating tarballs
(dist, Dist { stage: u32 }),
(dist_docs, DistDocs { stage: u32 }),
(dist_mingw, DistMingw { _dummy: () }),
(dist_rustc, DistRustc { stage: u32 }),
(dist_std, DistStd { compiler: Compiler<'a> }),
}
}
}
macro_rules! item { ($a:item) => ($a) }
macro_rules! define_source {
($(($short:ident, $name:ident { $($args:tt)* }),)*) => {
item! {
#[derive(Hash, Eq, PartialEq, Clone, Debug)]
pub enum Source<'a> {
$($name { $($args)* }),*
}
}
}
}
targets!(define_source);
pub fn all(build: &Build) -> Vec<Step> {
let mut ret = Vec::new();
let mut all = HashSet::new();
for target in top_level(build) {
fill(build, &target, &mut ret, &mut all);
}
return ret;
fn fill<'a>(build: &'a Build,
target: &Step<'a>,
ret: &mut Vec<Step<'a>>,
set: &mut HashSet<Step<'a>>) {
if set.insert(target.clone()) {
for dep in target.deps(build) {
fill(build, &dep, ret, set);
}
ret.push(target.clone());
}
}
}
fn top_level(build: &Build) -> Vec<Step> {
let mut targets = Vec::new();
let stage = build.flags.stage.unwrap_or(2);
let host = Step {
src: Source::Llvm { _dummy: () },
target: build.flags.host.iter().next()
.unwrap_or(&build.config.build),
};
let target = Step {
src: Source::Llvm { _dummy: () },
target: build.flags.target.iter().next().map(|x| &x[..])
.unwrap_or(host.target)
};
add_steps(build, stage, &host, &target, &mut targets);
if targets.len() == 0 {
let t = Step {
src: Source::Llvm { _dummy: () },
target: &build.config.build,
};
targets.push(t.doc(stage));
for host in build.config.host.iter() {
if !build.flags.host.contains(host) {
continue
}
let host = t.target(host);
if host.target == build.config.build {
targets.push(host.librustc(host.compiler(stage)));
} else {
targets.push(host.librustc_link(t.compiler(stage), host.target));
}
for target in build.config.target.iter() {
if !build.flags.target.contains(target) {
continue
}
if host.target == build.config.build {
targets.push(host.target(target)
.libtest(host.compiler(stage)));
} else {
targets.push(host.target(target)
.libtest_link(t.compiler(stage), host.target));
}
}
}
}
return targets
}
fn add_steps<'a>(build: &'a Build,
stage: u32,
host: &Step<'a>,
target: &Step<'a>,
targets: &mut Vec<Step<'a>>) {
struct Context<'a> {
stage: u32,
compiler: Compiler<'a>,
_dummy: (),
host: &'a str,
}
for step in build.flags.step.iter() {
// The macro below insists on hygienic access to all local variables, so
// we shove them all in a struct and subvert hygiene by accessing struct
// fields instead,
let cx = Context {
stage: stage,
compiler: host.target(&build.config.build).compiler(stage),
_dummy: (),
host: host.target,
};
macro_rules! add_step {
($(($short:ident, $name:ident { $($arg:ident: $t:ty),* }),)*) => ({$(
let name = stringify!($short).replace("_", "-");
if &step[..] == &name[..] {
targets.push(target.$short($(cx.$arg),*));
continue
}
drop(name);
)*})
}
targets!(add_step);
panic!("unknown step: {}", step);
}
}
macro_rules! constructors {
($(($short:ident, $name:ident { $($arg:ident: $t:ty),* }),)*) => {$(
fn $short(&self, $($arg: $t),*) -> Step<'a> {
Step {
src: Source::$name { $($arg: $arg),* },
target: self.target,
}
}
)*}
}
impl<'a> Step<'a> {
fn compiler(&self, stage: u32) -> Compiler<'a> {
Compiler::new(stage, self.target)
}
fn target(&self, target: &'a str) -> Step<'a> {
Step { target: target, src: self.src.clone() }
}
targets!(constructors);
pub fn deps(&self, build: &'a Build) -> Vec<Step<'a>> {
match self.src {
Source::Rustc { stage: 0 } => {
Vec::new()
}
Source::Rustc { stage } => {
let compiler = Compiler::new(stage - 1, &build.config.build);
vec![self.librustc(compiler)]
}
Source::Librustc { compiler } => {
vec![self.libtest(compiler), self.llvm(())]
}
Source::Libtest { compiler } => {
vec![self.libstd(compiler)]
}
Source::Libstd { compiler } => {
vec![self.compiler_rt(()),
self.rustc(compiler.stage).target(compiler.host)]
}
Source::LibrustcLink { compiler, host } => {
vec![self.librustc(compiler),
self.libtest_link(compiler, host)]
}
Source::LibtestLink { compiler, host } => {
vec![self.libtest(compiler), self.libstd_link(compiler, host)]
}
Source::LibstdLink { compiler, host } => {
vec![self.libstd(compiler),
self.target(host).rustc(compiler.stage)]
}
Source::CompilerRt { _dummy } => {
vec![self.llvm(()).target(&build.config.build)]
}
Source::Llvm { _dummy } => Vec::new(),
// Note that all doc targets depend on artifacts from the build
// architecture, not the target (which is where we're generating
// docs into).
Source::DocStd { stage } => {
let compiler = self.target(&build.config.build).compiler(stage);
vec![self.libstd(compiler)]
}
Source::DocTest { stage } => {
let compiler = self.target(&build.config.build).compiler(stage);
vec![self.libtest(compiler)]
}
Source::DocBook { stage } |
Source::DocNomicon { stage } |
Source::DocStyle { stage } => {
vec![self.target(&build.config.build).tool_rustbook(stage)]
}
Source::DocErrorIndex { stage } => {
vec![self.target(&build.config.build).tool_error_index(stage)]
}
Source::DocStandalone { stage } => {
vec![self.target(&build.config.build).rustc(stage)]
}
Source::DocRustc { stage } => {
vec![self.doc_test(stage)]
}
Source::Doc { stage } => {
vec![self.doc_book(stage), self.doc_nomicon(stage),
self.doc_style(stage), self.doc_standalone(stage),
self.doc_std(stage),
self.doc_error_index(stage)]
}
Source::Check { stage, compiler: _ } => {
vec![self.check_linkcheck(stage),
self.dist(stage)]
}
Source::CheckLinkcheck { stage } => {
vec![self.tool_linkchecker(stage), self.doc(stage)]
}
Source::CheckCargoTest { stage } => {
vec![self.tool_cargotest(stage)]
}
Source::ToolLinkchecker { stage } => {
vec![self.libstd(self.compiler(stage))]
}
Source::ToolErrorIndex { stage } |
Source::ToolRustbook { stage } => {
vec![self.librustc(self.compiler(stage))]
}
Source::ToolCargoTest { stage } => {
vec![self.librustc(self.compiler(stage))]
}
Source::DistDocs { stage } => vec![self.doc(stage)],
Source::DistMingw { _dummy: _ } => Vec::new(),
Source::DistRustc { stage } => {
vec![self.rustc(stage)]
}
Source::DistStd { compiler } => {
vec![self.libtest(compiler)]
}
Source::Dist { stage } => {
let mut base = Vec::new();
for host in build.config.host.iter() {
let host = self.target(host);
base.push(host.dist_rustc(stage));
if host.target.contains("windows-gnu") {
base.push(host.dist_mingw(()));
}
let compiler = self.compiler(stage);
for target in build.config.target.iter() {
let target = self.target(target);
base.push(target.dist_docs(stage));
base.push(target.dist_std(compiler));
}
}
return base
}
}
}
}
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