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use crate::core::compiler::CompileKind;
use crate::util::interning::InternedString;
use crate::util::{CargoResult, Config, RustfixDiagnosticServer};
use anyhow::bail;
use cargo_util::ProcessBuilder;
use serde::ser;
use std::cell::RefCell;
use std::path::PathBuf;
/// Configuration information for a rustc build.
#[derive(Debug)]
pub struct BuildConfig {
/// The requested kind of compilation for this session
pub requested_kinds: Vec<CompileKind>,
/// Number of rustc jobs to run in parallel.
pub jobs: u32,
/// Do not abort the build as soon as there is an error.
pub keep_going: bool,
/// Build profile
pub requested_profile: InternedString,
/// The mode we are compiling in.
pub mode: CompileMode,
/// `true` to print stdout in JSON format (for machine reading).
pub message_format: MessageFormat,
/// Force Cargo to do a full rebuild and treat each target as changed.
pub force_rebuild: bool,
/// Output a build plan to stdout instead of actually compiling.
pub build_plan: bool,
/// Output the unit graph to stdout instead of actually compiling.
pub unit_graph: bool,
/// An optional override of the rustc process for primary units
pub primary_unit_rustc: Option<ProcessBuilder>,
/// A thread used by `cargo fix` to receive messages on a socket regarding
/// the success/failure of applying fixes.
pub rustfix_diagnostic_server: RefCell<Option<RustfixDiagnosticServer>>,
/// The directory to copy final artifacts to. Note that even if `out_dir` is
/// set, a copy of artifacts still could be found a `target/(debug\release)`
/// as usual.
// Note that, although the cmd-line flag name is `out-dir`, in code we use
// `export_dir`, to avoid confusion with out dir at `target/debug/deps`.
pub export_dir: Option<PathBuf>,
/// `true` to output a future incompatibility report at the end of the build
pub future_incompat_report: bool,
/// Which kinds of build timings to output (empty if none).
pub timing_outputs: Vec<TimingOutput>,
}
impl BuildConfig {
/// Parses all config files to learn about build configuration. Currently
/// configured options are:
///
/// * `build.jobs`
/// * `build.target`
/// * `target.$target.ar`
/// * `target.$target.linker`
/// * `target.$target.libfoo.metadata`
pub fn new(
config: &Config,
jobs: Option<u32>,
keep_going: bool,
requested_targets: &[String],
mode: CompileMode,
) -> CargoResult<BuildConfig> {
let cfg = config.build_config()?;
let requested_kinds = CompileKind::from_requested_targets(config, requested_targets)?;
if jobs == Some(0) {
anyhow::bail!("jobs must be at least 1")
}
if jobs.is_some() && config.jobserver_from_env().is_some() {
config.shell().warn(
"a `-j` argument was passed to Cargo but Cargo is \
also configured with an external jobserver in \
its environment, ignoring the `-j` parameter",
)?;
}
let jobs = jobs.or(cfg.jobs).unwrap_or(::num_cpus::get() as u32);
if jobs == 0 {
anyhow::bail!("jobs may not be 0");
}
if config.cli_unstable().build_std.is_some() && requested_kinds[0].is_host() {
// TODO: This should eventually be fixed.
anyhow::bail!("-Zbuild-std requires --target");
}
Ok(BuildConfig {
requested_kinds,
jobs,
keep_going,
requested_profile: InternedString::new("dev"),
mode,
message_format: MessageFormat::Human,
force_rebuild: false,
build_plan: false,
unit_graph: false,
primary_unit_rustc: None,
rustfix_diagnostic_server: RefCell::new(None),
export_dir: None,
future_incompat_report: false,
timing_outputs: Vec::new(),
})
}
/// Whether or not the *user* wants JSON output. Whether or not rustc
/// actually uses JSON is decided in `add_error_format`.
pub fn emit_json(&self) -> bool {
matches!(self.message_format, MessageFormat::Json { .. })
}
pub fn test(&self) -> bool {
self.mode == CompileMode::Test || self.mode == CompileMode::Bench
}
pub fn single_requested_kind(&self) -> CargoResult<CompileKind> {
match self.requested_kinds.len() {
1 => Ok(self.requested_kinds[0]),
_ => bail!("only one `--target` argument is supported"),
}
}
}
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum MessageFormat {
Human,
Json {
/// Whether rustc diagnostics are rendered by cargo or included into the
/// output stream.
render_diagnostics: bool,
/// Whether the `rendered` field of rustc diagnostics are using the
/// "short" rendering.
short: bool,
/// Whether the `rendered` field of rustc diagnostics embed ansi color
/// codes.
ansi: bool,
},
Short,
}
/// The general "mode" for what to do.
/// This is used for two purposes. The commands themselves pass this in to
/// `compile_ws` to tell it the general execution strategy. This influences
/// the default targets selected. The other use is in the `Unit` struct
/// to indicate what is being done with a specific target.
#[derive(Clone, Copy, PartialEq, Debug, Eq, Hash, PartialOrd, Ord)]
pub enum CompileMode {
/// A target being built for a test.
Test,
/// Building a target with `rustc` (lib or bin).
Build,
/// Building a target with `rustc` to emit `rmeta` metadata only. If
/// `test` is true, then it is also compiled with `--test` to check it like
/// a test.
Check { test: bool },
/// Used to indicate benchmarks should be built. This is not used in
/// `Unit`, because it is essentially the same as `Test` (indicating
/// `--test` should be passed to rustc) and by using `Test` instead it
/// allows some de-duping of Units to occur.
Bench,
/// A target that will be documented with `rustdoc`.
/// If `deps` is true, then it will also document all dependencies.
Doc { deps: bool },
/// A target that will be tested with `rustdoc`.
Doctest,
/// An example or library that will be scraped for function calls by `rustdoc`.
Docscrape,
/// A marker for Units that represent the execution of a `build.rs` script.
RunCustomBuild,
}
impl ser::Serialize for CompileMode {
fn serialize<S>(&self, s: S) -> Result<S::Ok, S::Error>
where
S: ser::Serializer,
{
use self::CompileMode::*;
match *self {
Test => "test".serialize(s),
Build => "build".serialize(s),
Check { .. } => "check".serialize(s),
Bench => "bench".serialize(s),
Doc { .. } => "doc".serialize(s),
Doctest => "doctest".serialize(s),
Docscrape => "docscrape".serialize(s),
RunCustomBuild => "run-custom-build".serialize(s),
}
}
}
impl CompileMode {
/// Returns `true` if the unit is being checked.
pub fn is_check(self) -> bool {
matches!(self, CompileMode::Check { .. })
}
/// Returns `true` if this is generating documentation.
pub fn is_doc(self) -> bool {
matches!(self, CompileMode::Doc { .. })
}
/// Returns `true` if this a doc test.
pub fn is_doc_test(self) -> bool {
self == CompileMode::Doctest
}
/// Returns `true` if this is scraping examples for documentation.
pub fn is_doc_scrape(self) -> bool {
self == CompileMode::Docscrape
}
/// Returns `true` if this is any type of test (test, benchmark, doc test, or
/// check test).
pub fn is_any_test(self) -> bool {
matches!(
self,
CompileMode::Test
| CompileMode::Bench
| CompileMode::Check { test: true }
| CompileMode::Doctest
)
}
/// Returns `true` if this is something that passes `--test` to rustc.
pub fn is_rustc_test(self) -> bool {
matches!(
self,
CompileMode::Test | CompileMode::Bench | CompileMode::Check { test: true }
)
}
/// Returns `true` if this is the *execution* of a `build.rs` script.
pub fn is_run_custom_build(self) -> bool {
self == CompileMode::RunCustomBuild
}
/// Returns `true` if this mode may generate an executable.
///
/// Note that this also returns `true` for building libraries, so you also
/// have to check the target.
pub fn generates_executable(self) -> bool {
matches!(
self,
CompileMode::Test | CompileMode::Bench | CompileMode::Build
)
}
}
/// Kinds of build timings we can output.
#[derive(Clone, Copy, PartialEq, Debug, Eq, Hash, PartialOrd, Ord)]
pub enum TimingOutput {
/// Human-readable HTML report
Html,
/// Machine-readable JSON (unstable)
Json,
}