compiletest/
common.rs

1use std::collections::{BTreeSet, HashMap, HashSet};
2use std::iter;
3use std::process::Command;
4use std::sync::OnceLock;
5
6use build_helper::git::GitConfig;
7use camino::{Utf8Path, Utf8PathBuf};
8use semver::Version;
9
10use crate::edition::Edition;
11use crate::executor::ColorConfig;
12use crate::fatal;
13use crate::util::{Utf8PathBufExt, add_dylib_path, string_enum};
14
15string_enum! {
16    #[derive(Clone, Copy, PartialEq, Debug)]
17    pub enum TestMode {
18        Pretty => "pretty",
19        DebugInfo => "debuginfo",
20        Codegen => "codegen",
21        Rustdoc => "rustdoc",
22        RustdocJson => "rustdoc-json",
23        CodegenUnits => "codegen-units",
24        Incremental => "incremental",
25        RunMake => "run-make",
26        Ui => "ui",
27        RustdocJs => "rustdoc-js",
28        MirOpt => "mir-opt",
29        Assembly => "assembly",
30        CoverageMap => "coverage-map",
31        CoverageRun => "coverage-run",
32        Crashes => "crashes",
33    }
34}
35
36impl TestMode {
37    pub fn aux_dir_disambiguator(self) -> &'static str {
38        // Pretty-printing tests could run concurrently, and if they do,
39        // they need to keep their output segregated.
40        match self {
41            TestMode::Pretty => ".pretty",
42            _ => "",
43        }
44    }
45
46    pub fn output_dir_disambiguator(self) -> &'static str {
47        // Coverage tests use the same test files for multiple test modes,
48        // so each mode should have a separate output directory.
49        match self {
50            TestMode::CoverageMap | TestMode::CoverageRun => self.to_str(),
51            _ => "",
52        }
53    }
54}
55
56// Note that coverage tests use the same test files for multiple test modes.
57string_enum! {
58    #[derive(Clone, Copy, PartialEq, Debug)]
59    pub enum TestSuite {
60        AssemblyLlvm => "assembly-llvm",
61        CodegenLlvm => "codegen-llvm",
62        CodegenUnits => "codegen-units",
63        Coverage => "coverage",
64        CoverageRunRustdoc => "coverage-run-rustdoc",
65        Crashes => "crashes",
66        Debuginfo => "debuginfo",
67        Incremental => "incremental",
68        MirOpt => "mir-opt",
69        Pretty => "pretty",
70        RunMake => "run-make",
71        RunMakeCargo => "run-make-cargo",
72        Rustdoc => "rustdoc",
73        RustdocGui => "rustdoc-gui",
74        RustdocJs => "rustdoc-js",
75        RustdocJsStd=> "rustdoc-js-std",
76        RustdocJson => "rustdoc-json",
77        RustdocUi => "rustdoc-ui",
78        Ui => "ui",
79        UiFullDeps => "ui-fulldeps",
80    }
81}
82
83string_enum! {
84    #[derive(Clone, Copy, PartialEq, Debug, Hash)]
85    pub enum PassMode {
86        Check => "check",
87        Build => "build",
88        Run => "run",
89    }
90}
91
92string_enum! {
93    #[derive(Clone, Copy, PartialEq, Debug, Hash)]
94    pub enum RunResult {
95        Pass => "run-pass",
96        Fail => "run-fail",
97        Crash => "run-crash",
98    }
99}
100
101#[derive(Copy, Clone, Debug, PartialEq, PartialOrd)]
102pub enum RunFailMode {
103    /// Running the program must make it exit with a regular failure exit code
104    /// in the range `1..=127`. If the program is terminated by e.g. a signal
105    /// the test will fail.
106    Fail,
107    /// Running the program must result in a crash, e.g. by `SIGABRT` or
108    /// `SIGSEGV` on Unix or on Windows by having an appropriate NTSTATUS high
109    /// bit in the exit code.
110    Crash,
111    /// Running the program must either fail or crash. Useful for e.g. sanitizer
112    /// tests since some sanitizer implementations exit the process with code 1
113    /// to in the face of memory errors while others abort (crash) the process
114    /// in the face of memory errors.
115    FailOrCrash,
116}
117
118#[derive(Copy, Clone, Debug, PartialEq, PartialOrd)]
119pub enum FailMode {
120    Check,
121    Build,
122    Run(RunFailMode),
123}
124
125string_enum! {
126    #[derive(Clone, Debug, PartialEq)]
127    pub enum CompareMode {
128        Polonius => "polonius",
129        NextSolver => "next-solver",
130        NextSolverCoherence => "next-solver-coherence",
131        SplitDwarf => "split-dwarf",
132        SplitDwarfSingle => "split-dwarf-single",
133    }
134}
135
136string_enum! {
137    #[derive(Clone, Copy, Debug, PartialEq)]
138    pub enum Debugger {
139        Cdb => "cdb",
140        Gdb => "gdb",
141        Lldb => "lldb",
142    }
143}
144
145#[derive(Clone, Copy, Debug, PartialEq, Default, serde::Deserialize)]
146#[serde(rename_all = "kebab-case")]
147pub enum PanicStrategy {
148    #[default]
149    Unwind,
150    Abort,
151}
152
153impl PanicStrategy {
154    pub(crate) fn for_miropt_test_tools(&self) -> miropt_test_tools::PanicStrategy {
155        match self {
156            PanicStrategy::Unwind => miropt_test_tools::PanicStrategy::Unwind,
157            PanicStrategy::Abort => miropt_test_tools::PanicStrategy::Abort,
158        }
159    }
160}
161
162#[derive(Clone, Debug, PartialEq, serde::Deserialize)]
163#[serde(rename_all = "kebab-case")]
164pub enum Sanitizer {
165    Address,
166    Cfi,
167    Dataflow,
168    Kcfi,
169    KernelAddress,
170    Leak,
171    Memory,
172    Memtag,
173    Safestack,
174    ShadowCallStack,
175    Thread,
176    Hwaddress,
177}
178
179#[derive(Clone, Copy, Debug, PartialEq)]
180pub enum CodegenBackend {
181    Cranelift,
182    Gcc,
183    Llvm,
184}
185
186impl<'a> TryFrom<&'a str> for CodegenBackend {
187    type Error = &'static str;
188
189    fn try_from(value: &'a str) -> Result<Self, Self::Error> {
190        match value.to_lowercase().as_str() {
191            "cranelift" => Ok(Self::Cranelift),
192            "gcc" => Ok(Self::Gcc),
193            "llvm" => Ok(Self::Llvm),
194            _ => Err("unknown backend"),
195        }
196    }
197}
198
199impl CodegenBackend {
200    pub fn as_str(self) -> &'static str {
201        match self {
202            Self::Cranelift => "cranelift",
203            Self::Gcc => "gcc",
204            Self::Llvm => "llvm",
205        }
206    }
207
208    pub fn is_llvm(self) -> bool {
209        matches!(self, Self::Llvm)
210    }
211}
212
213/// Configuration for `compiletest` *per invocation*.
214///
215/// In terms of `bootstrap`, this means that `./x test tests/ui tests/run-make` actually correspond
216/// to *two* separate invocations of `compiletest`.
217///
218/// FIXME: this `Config` struct should be broken up into smaller logically contained sub-config
219/// structs, it's too much of a "soup" of everything at the moment.
220///
221/// # Configuration sources
222///
223/// Configuration values for `compiletest` comes from several sources:
224///
225/// - CLI args passed from `bootstrap` while running the `compiletest` binary.
226/// - Env vars.
227/// - Discovery (e.g. trying to identify a suitable debugger based on filesystem discovery).
228/// - Cached output of running the `rustc` under test (e.g. output of `rustc` print requests).
229///
230/// FIXME: make sure we *clearly* account for sources of *all* config options.
231///
232/// FIXME: audit these options to make sure we are not hashing less than necessary for build stamp
233/// (for changed test detection).
234#[derive(Debug, Clone)]
235pub struct Config {
236    /// Some [`TestMode`]s support [snapshot testing], where a *reference snapshot* of outputs (of
237    /// `stdout`, `stderr`, or other form of artifacts) can be compared to the *actual output*.
238    ///
239    /// This option can be set to `true` to update the *reference snapshots* in-place, otherwise
240    /// `compiletest` will only try to compare.
241    ///
242    /// [snapshot testing]: https://jestjs.io/docs/snapshot-testing
243    pub bless: bool,
244
245    /// Attempt to stop as soon as possible after any test fails. We may still run a few more tests
246    /// before stopping when multiple test threads are used.
247    pub fail_fast: bool,
248
249    /// Path to libraries needed to run the *staged* `rustc`-under-test on the **host** platform.
250    ///
251    /// FIXME: maybe rename this to reflect (1) which target platform (host, not target), and (2)
252    /// which `rustc` (the `rustc`-under-test, not the stage 0 `rustc` unless forced).
253    pub compile_lib_path: Utf8PathBuf,
254
255    /// Path to libraries needed to run the compiled executable for the **target** platform. This
256    /// corresponds to the **target** sysroot libraries, including the **target** standard library.
257    ///
258    /// FIXME: maybe rename this to reflect (1) which target platform (target, not host), and (2)
259    /// what "run libraries" are against.
260    ///
261    /// FIXME: this is very under-documented in conjunction with the `remote-test-client` scheme and
262    /// `RUNNER` scheme to actually run the target executable under the target platform environment,
263    /// cf. [`Self::remote_test_client`] and [`Self::runner`].
264    pub run_lib_path: Utf8PathBuf,
265
266    /// Path to the *staged*  `rustc`-under-test. Unless forced, this `rustc` is *staged*, and must
267    /// not be confused with [`Self::stage0_rustc_path`].
268    ///
269    /// FIXME: maybe rename this to reflect that this is the `rustc`-under-test.
270    pub rustc_path: Utf8PathBuf,
271
272    /// Path to a *staged* **host** platform cargo executable (unless stage 0 is forced). This
273    /// staged `cargo` is only used within `run-make` test recipes during recipe run time (and is
274    /// *not* used to compile the test recipes), and so must be staged as there may be differences
275    /// between e.g. beta `cargo` vs in-tree `cargo`.
276    ///
277    /// FIXME: maybe rename this to reflect that this is a *staged* host cargo.
278    pub cargo_path: Option<Utf8PathBuf>,
279
280    /// Path to the stage 0 `rustc` used to build `run-make` recipes. This must not be confused with
281    /// [`Self::rustc_path`].
282    pub stage0_rustc_path: Option<Utf8PathBuf>,
283
284    /// Path to the stage 1 or higher `rustc` used to obtain target information via
285    /// `--print=all-target-specs-json` and similar queries.
286    ///
287    /// Normally this is unset, because [`Self::rustc_path`] can be used instead.
288    /// But when running "stage 1" ui-fulldeps tests, `rustc_path` is a stage 0
289    /// compiler, whereas target specs must be obtained from a stage 1+ compiler
290    /// (in case the JSON format has changed since the last bootstrap bump).
291    pub query_rustc_path: Option<Utf8PathBuf>,
292
293    /// Path to the `rustdoc`-under-test. Like [`Self::rustc_path`], this `rustdoc` is *staged*.
294    pub rustdoc_path: Option<Utf8PathBuf>,
295
296    /// Path to the `src/tools/coverage-dump/` bootstrap tool executable.
297    pub coverage_dump_path: Option<Utf8PathBuf>,
298
299    /// Path to the Python 3 executable to use for LLDB and htmldocck.
300    ///
301    /// FIXME: the `lldb` setup currently requires I believe Python 3.10 **exactly**, it can't even
302    /// be Python 3.11 or 3.9...
303    pub python: String,
304
305    /// Path to the `src/tools/jsondocck/` bootstrap tool executable.
306    pub jsondocck_path: Option<String>,
307
308    /// Path to the `src/tools/jsondoclint/` bootstrap tool executable.
309    pub jsondoclint_path: Option<String>,
310
311    /// Path to a host LLVM `FileCheck` executable.
312    pub llvm_filecheck: Option<Utf8PathBuf>,
313
314    /// Path to a host LLVM bintools directory.
315    pub llvm_bin_dir: Option<Utf8PathBuf>,
316
317    /// The path to the **target** `clang` executable to run `clang`-based tests with. If `None`,
318    /// then these tests will be ignored.
319    pub run_clang_based_tests_with: Option<String>,
320
321    /// Path to the directory containing the sources. This corresponds to the root folder of a
322    /// `rust-lang/rust` checkout.
323    ///
324    /// FIXME: this name is confusing, because this is actually `$checkout_root`, **not** the
325    /// `$checkout_root/src/` folder.
326    pub src_root: Utf8PathBuf,
327
328    /// Path to the directory containing the test suites sources. This corresponds to the
329    /// `$src_root/tests/` folder.
330    ///
331    /// Must be an immediate subdirectory of [`Self::src_root`].
332    ///
333    /// FIXME: this name is also confusing, maybe just call it `tests_root`.
334    pub src_test_suite_root: Utf8PathBuf,
335
336    /// Path to the build directory (e.g. `build/`).
337    pub build_root: Utf8PathBuf,
338
339    /// Path to the test suite specific build directory (e.g. `build/host/test/ui/`).
340    ///
341    /// Must be a subdirectory of [`Self::build_root`].
342    pub build_test_suite_root: Utf8PathBuf,
343
344    /// Path to the directory containing the sysroot of the `rustc`-under-test.
345    ///
346    /// When stage 0 is forced, this will correspond to the sysroot *of* that specified stage 0
347    /// `rustc`.
348    ///
349    /// FIXME: this name is confusing, because it doesn't specify *which* compiler this sysroot
350    /// corresponds to. It's actually the `rustc`-under-test, and not the bootstrap `rustc`, unless
351    /// stage 0 is forced and no custom stage 0 `rustc` was otherwise specified (so that it
352    /// *happens* to run against the bootstrap `rustc`, but this non-custom bootstrap `rustc` case
353    /// is not really supported).
354    pub sysroot_base: Utf8PathBuf,
355
356    /// The number of the stage under test.
357    pub stage: u32,
358
359    /// The id of the stage under test (stage1-xxx, etc).
360    ///
361    /// FIXME: reconsider this string; this is hashed for test build stamp.
362    pub stage_id: String,
363
364    /// The [`TestMode`]. E.g. [`TestMode::Ui`]. Each test mode can correspond to one or more test
365    /// suites.
366    ///
367    /// FIXME: stop using stringly-typed test suites!
368    pub mode: TestMode,
369
370    /// The test suite.
371    ///
372    /// Example: `tests/ui/` is [`TestSuite::Ui`] test *suite*, which happens to also be of the
373    /// [`TestMode::Ui`] test *mode*.
374    ///
375    /// Note that the same test suite (e.g. `tests/coverage/`) may correspond to multiple test
376    /// modes, e.g. `tests/coverage/` can be run under both [`TestMode::CoverageRun`] and
377    /// [`TestMode::CoverageMap`].
378    pub suite: TestSuite,
379
380    /// When specified, **only** the specified [`Debugger`] will be used to run against the
381    /// `tests/debuginfo` test suite. When unspecified, `compiletest` will attempt to find all three
382    /// of {`lldb`, `cdb`, `gdb`} implicitly, and then try to run the `debuginfo` test suite against
383    /// all three debuggers.
384    ///
385    /// FIXME: this implicit behavior is really nasty, in that it makes it hard for the user to
386    /// control *which* debugger(s) are available and used to run the debuginfo test suite. We
387    /// should have `bootstrap` allow the user to *explicitly* configure the debuggers, and *not*
388    /// try to implicitly discover some random debugger from the user environment. This makes the
389    /// debuginfo test suite particularly hard to work with.
390    pub debugger: Option<Debugger>,
391
392    /// Run ignored tests *unconditionally*, overriding their ignore reason.
393    ///
394    /// FIXME: this is wired up through the test execution logic, but **not** accessible from
395    /// `bootstrap` directly; `compiletest` exposes this as `--ignored`. I.e. you'd have to use `./x
396    /// test $test_suite -- --ignored=true`.
397    pub run_ignored: bool,
398
399    /// Whether *staged* `rustc`-under-test was built with debug assertions.
400    ///
401    /// FIXME: make it clearer that this refers to the staged `rustc`-under-test, not stage 0
402    /// `rustc`.
403    pub with_rustc_debug_assertions: bool,
404
405    /// Whether *staged* `std` was built with debug assertions.
406    ///
407    /// FIXME: make it clearer that this refers to the staged `std`, not stage 0 `std`.
408    pub with_std_debug_assertions: bool,
409
410    /// Only run tests that match these filters (using `libtest` "test name contains" filter logic).
411    ///
412    /// FIXME(#139660): the current hand-rolled test executor intentionally mimics the `libtest`
413    /// "test name contains" filter matching logic to preserve previous `libtest` executor behavior,
414    /// but this is often not intuitive. We should consider changing that behavior with an MCP to do
415    /// test path *prefix* matching which better corresponds to how `compiletest` `tests/` are
416    /// organized, and how users would intuitively expect the filtering logic to work like.
417    pub filters: Vec<String>,
418
419    /// Skip tests matching these substrings. The matching logic exactly corresponds to
420    /// [`Self::filters`] but inverted.
421    ///
422    /// FIXME(#139660): ditto on test matching behavior.
423    pub skip: Vec<String>,
424
425    /// Exactly match the filter, rather than a substring.
426    ///
427    /// FIXME(#139660): ditto on test matching behavior.
428    pub filter_exact: bool,
429
430    /// Force the pass mode of a check/build/run test to instead use this mode instead.
431    ///
432    /// FIXME: make it even more obvious (especially in PR CI where `--pass=check` is used) when a
433    /// pass mode is forced when the test fails, because it can be very non-obvious when e.g. an
434    /// error is emitted only when `//@ build-pass` but not `//@ check-pass`.
435    pub force_pass_mode: Option<PassMode>,
436
437    /// Explicitly enable or disable running of the target test binary.
438    ///
439    /// FIXME: this scheme is a bit confusing, and at times questionable. Re-evaluate this run
440    /// scheme.
441    ///
442    /// FIXME: Currently `--run` is a tri-state, it can be `--run={auto,always,never}`, and when
443    /// `--run=auto` is specified, it's run if the platform doesn't end with `-fuchsia`. See
444    /// [`Config::run_enabled`].
445    pub run: Option<bool>,
446
447    /// A command line to prefix target program execution with, for running under valgrind for
448    /// example, i.e. `$runner target.exe [args..]`. Similar to `CARGO_*_RUNNER` configuration.
449    ///
450    /// Note: this is not to be confused with [`Self::remote_test_client`], which is a different
451    /// scheme.
452    ///
453    /// FIXME: the runner scheme is very under-documented.
454    pub runner: Option<String>,
455
456    /// Compiler flags to pass to the *staged* `rustc`-under-test when building for the **host**
457    /// platform.
458    pub host_rustcflags: Vec<String>,
459
460    /// Compiler flags to pass to the *staged* `rustc`-under-test when building for the **target**
461    /// platform.
462    pub target_rustcflags: Vec<String>,
463
464    /// Whether the *staged* `rustc`-under-test and the associated *staged* `std` has been built
465    /// with randomized struct layouts.
466    pub rust_randomized_layout: bool,
467
468    /// Whether tests should be optimized by default (`-O`). Individual test suites and test files
469    /// may override this setting.
470    ///
471    /// FIXME: this flag / config option is somewhat misleading. For instance, in ui tests, it's
472    /// *only* applied to the [`PassMode::Run`] test crate and not its auxiliaries.
473    pub optimize_tests: bool,
474
475    /// Target platform tuple.
476    pub target: String,
477
478    /// Host platform tuple.
479    pub host: String,
480
481    /// Path to / name of the Microsoft Console Debugger (CDB) executable.
482    ///
483    /// FIXME: this is an *opt-in* "override" option. When this isn't provided, we try to conjure a
484    /// cdb by looking at the user's program files on Windows... See `debuggers::find_cdb`.
485    pub cdb: Option<Utf8PathBuf>,
486
487    /// Version of CDB.
488    ///
489    /// FIXME: `cdb_version` is *derived* from cdb, but it's *not* technically a config!
490    ///
491    /// FIXME: audit cdb version gating.
492    pub cdb_version: Option<[u16; 4]>,
493
494    /// Path to / name of the GDB executable.
495    ///
496    /// FIXME: the fallback path when `gdb` isn't provided tries to find *a* `gdb` or `gdb.exe` from
497    /// `PATH`, which is... arguably questionable.
498    ///
499    /// FIXME: we are propagating a python from `PYTHONPATH`, not from an explicit config for gdb
500    /// debugger script.
501    pub gdb: Option<String>,
502
503    /// Version of GDB, encoded as ((major * 1000) + minor) * 1000 + patch
504    ///
505    /// FIXME: this gdb version gating scheme is possibly questionable -- gdb does not use semver,
506    /// only its major version is likely materially meaningful, cf.
507    /// <https://sourceware.org/gdb/wiki/Internals%20Versions>. Even the major version I'm not sure
508    /// is super meaningful. Maybe min gdb `major.minor` version gating is sufficient for the
509    /// purposes of debuginfo tests?
510    ///
511    /// FIXME: `gdb_version` is *derived* from gdb, but it's *not* technically a config!
512    pub gdb_version: Option<u32>,
513
514    /// Version of LLDB.
515    ///
516    /// FIXME: `lldb_version` is *derived* from lldb, but it's *not* technically a config!
517    pub lldb_version: Option<u32>,
518
519    /// Version of LLVM.
520    ///
521    /// FIXME: Audit the fallback derivation of
522    /// [`crate::directives::extract_llvm_version_from_binary`], that seems very questionable?
523    pub llvm_version: Option<Version>,
524
525    /// Is LLVM a system LLVM.
526    pub system_llvm: bool,
527
528    /// Path to the android tools.
529    ///
530    /// Note: this is only used for android gdb debugger script in the debuginfo test suite.
531    ///
532    /// FIXME: take a look at this; this is piggy-backing off of gdb code paths but only for
533    /// `arm-linux-androideabi` target.
534    pub android_cross_path: Utf8PathBuf,
535
536    /// Extra parameter to run adb on `arm-linux-androideabi`.
537    ///
538    /// FIXME: is this *only* `arm-linux-androideabi`, or is it also for other Tier 2/3 android
539    /// targets?
540    ///
541    /// FIXME: take a look at this; this is piggy-backing off of gdb code paths but only for
542    /// `arm-linux-androideabi` target.
543    pub adb_path: String,
544
545    /// Extra parameter to run test suite on `arm-linux-androideabi`.
546    ///
547    /// FIXME: is this *only* `arm-linux-androideabi`, or is it also for other Tier 2/3 android
548    /// targets?
549    ///
550    /// FIXME: take a look at this; this is piggy-backing off of gdb code paths but only for
551    /// `arm-linux-androideabi` target.
552    pub adb_test_dir: String,
553
554    /// Status whether android device available or not. When unavailable, this will cause tests to
555    /// panic when the test binary is attempted to be run.
556    ///
557    /// FIXME: take a look at this; this also influences adb in gdb code paths in a strange way.
558    pub adb_device_status: bool,
559
560    /// Path containing LLDB's Python module.
561    ///
562    /// FIXME: `PYTHONPATH` takes precedence over this flag...? See `runtest::run_lldb`.
563    pub lldb_python_dir: Option<String>,
564
565    /// Verbose dump a lot of info.
566    ///
567    /// FIXME: this is *way* too coarse; the user can't select *which* info to verbosely dump.
568    pub verbose: bool,
569
570    /// Whether to use colors in test output.
571    ///
572    /// Note: the exact control mechanism is delegated to [`colored`].
573    pub color: ColorConfig,
574
575    /// Where to find the remote test client process, if we're using it.
576    ///
577    /// Note: this is *only* used for target platform executables created by `run-make` test
578    /// recipes.
579    ///
580    /// Note: this is not to be confused with [`Self::runner`], which is a different scheme.
581    ///
582    /// FIXME: the `remote_test_client` scheme is very under-documented.
583    pub remote_test_client: Option<Utf8PathBuf>,
584
585    /// [`CompareMode`] describing what file the actual ui output will be compared to.
586    ///
587    /// FIXME: currently, [`CompareMode`] is a mishmash of lot of things (different borrow-checker
588    /// model, different trait solver, different debugger, etc.).
589    pub compare_mode: Option<CompareMode>,
590
591    /// If true, this will generate a coverage file with UI test files that run `MachineApplicable`
592    /// diagnostics but are missing `run-rustfix` annotations. The generated coverage file is
593    /// created in `$test_suite_build_root/rustfix_missing_coverage.txt`
594    pub rustfix_coverage: bool,
595
596    /// Whether to run `tidy` (html-tidy) when a rustdoc test fails.
597    pub has_html_tidy: bool,
598
599    /// Whether to run `enzyme` autodiff tests.
600    pub has_enzyme: bool,
601
602    /// The current Rust channel info.
603    ///
604    /// FIXME: treat this more carefully; "stable", "beta" and "nightly" are definitely valid, but
605    /// channel might also be "dev" or such, which should be treated as "nightly".
606    pub channel: String,
607
608    /// Whether adding git commit information such as the commit hash has been enabled for building.
609    ///
610    /// FIXME: `compiletest` cannot trust `bootstrap` for this information, because `bootstrap` can
611    /// have bugs and had bugs on that logic. We need to figure out how to obtain this e.g. directly
612    /// from CI or via git locally.
613    pub git_hash: bool,
614
615    /// The default Rust edition.
616    pub edition: Option<Edition>,
617
618    // Configuration for various run-make tests frobbing things like C compilers or querying about
619    // various LLVM component information.
620    //
621    // FIXME: this really should be better packaged together.
622    // FIXME: these need better docs, e.g. for *host*, or for *target*?
623    pub cc: String,
624    pub cxx: String,
625    pub cflags: String,
626    pub cxxflags: String,
627    pub ar: String,
628    pub target_linker: Option<String>,
629    pub host_linker: Option<String>,
630    pub llvm_components: String,
631
632    /// Path to a NodeJS executable. Used for JS doctests, emscripten and WASM tests.
633    pub nodejs: Option<String>,
634    /// Path to a npm executable. Used for rustdoc GUI tests.
635    pub npm: Option<String>,
636
637    /// Whether to rerun tests even if the inputs are unchanged.
638    pub force_rerun: bool,
639
640    /// Only rerun the tests that result has been modified according to `git status`.
641    ///
642    /// FIXME: this is undocumented.
643    ///
644    /// FIXME: how does this interact with [`Self::force_rerun`]?
645    pub only_modified: bool,
646
647    // FIXME: these are really not "config"s, but rather are information derived from
648    // `rustc`-under-test. This poses an interesting conundrum: if we're testing the
649    // `rustc`-under-test, can we trust its print request outputs and target cfgs? In theory, this
650    // itself can break or be unreliable -- ideally, we'd be sharing these kind of information not
651    // through `rustc`-under-test's execution output. In practice, however, print requests are very
652    // unlikely to completely break (we also have snapshot ui tests for them). Furthermore, even if
653    // we share them via some kind of static config, that static config can still be wrong! Who
654    // tests the tester? Therefore, we make a pragmatic compromise here, and use information derived
655    // from print requests produced by the `rustc`-under-test.
656    //
657    // FIXME: move them out from `Config`, because they are *not* configs.
658    pub target_cfgs: OnceLock<TargetCfgs>,
659    pub builtin_cfg_names: OnceLock<HashSet<String>>,
660    pub supported_crate_types: OnceLock<HashSet<String>>,
661
662    /// FIXME: rename this to the more canonical `no_capture`, or better, invert this to `capture`
663    /// to avoid `!nocapture` double-negatives.
664    pub nocapture: bool,
665
666    /// Needed both to construct [`build_helper::git::GitConfig`].
667    pub nightly_branch: String,
668    pub git_merge_commit_email: String,
669
670    /// True if the profiler runtime is enabled for this target. Used by the
671    /// `needs-profiler-runtime` directive in test files.
672    pub profiler_runtime: bool,
673
674    /// Command for visual diff display, e.g. `diff-tool --color=always`.
675    pub diff_command: Option<String>,
676
677    /// Path to minicore aux library (`tests/auxiliary/minicore.rs`), used for `no_core` tests that
678    /// need `core` stubs in cross-compilation scenarios that do not otherwise want/need to
679    /// `-Zbuild-std`. Used in e.g. ABI tests.
680    pub minicore_path: Utf8PathBuf,
681
682    /// Current codegen backend used.
683    pub default_codegen_backend: CodegenBackend,
684    /// Name/path of the backend to use instead of `default_codegen_backend`.
685    pub override_codegen_backend: Option<String>,
686}
687
688impl Config {
689    /// Incomplete config intended for `src/tools/rustdoc-gui-test` **only** as
690    /// `src/tools/rustdoc-gui-test` wants to reuse `compiletest`'s directive -> test property
691    /// handling for `//@ {compile,run}-flags`, do not use for any other purpose.
692    ///
693    /// FIXME(#143827): this setup feels very hacky. It so happens that `tests/rustdoc-gui/`
694    /// **only** uses `//@ {compile,run}-flags` for now and not any directives that actually rely on
695    /// info that is assumed available in a fully populated [`Config`].
696    pub fn incomplete_for_rustdoc_gui_test() -> Config {
697        // FIXME(#143827): spelling this out intentionally, because this is questionable.
698        //
699        // For instance, `//@ ignore-stage1` will not work at all.
700        Config {
701            mode: TestMode::Rustdoc,
702            // E.g. this has no sensible default tbh.
703            suite: TestSuite::Ui,
704
705            // Dummy values.
706            edition: Default::default(),
707            bless: Default::default(),
708            fail_fast: Default::default(),
709            compile_lib_path: Utf8PathBuf::default(),
710            run_lib_path: Utf8PathBuf::default(),
711            rustc_path: Utf8PathBuf::default(),
712            cargo_path: Default::default(),
713            stage0_rustc_path: Default::default(),
714            query_rustc_path: Default::default(),
715            rustdoc_path: Default::default(),
716            coverage_dump_path: Default::default(),
717            python: Default::default(),
718            jsondocck_path: Default::default(),
719            jsondoclint_path: Default::default(),
720            llvm_filecheck: Default::default(),
721            llvm_bin_dir: Default::default(),
722            run_clang_based_tests_with: Default::default(),
723            src_root: Utf8PathBuf::default(),
724            src_test_suite_root: Utf8PathBuf::default(),
725            build_root: Utf8PathBuf::default(),
726            build_test_suite_root: Utf8PathBuf::default(),
727            sysroot_base: Utf8PathBuf::default(),
728            stage: Default::default(),
729            stage_id: String::default(),
730            debugger: Default::default(),
731            run_ignored: Default::default(),
732            with_rustc_debug_assertions: Default::default(),
733            with_std_debug_assertions: Default::default(),
734            filters: Default::default(),
735            skip: Default::default(),
736            filter_exact: Default::default(),
737            force_pass_mode: Default::default(),
738            run: Default::default(),
739            runner: Default::default(),
740            host_rustcflags: Default::default(),
741            target_rustcflags: Default::default(),
742            rust_randomized_layout: Default::default(),
743            optimize_tests: Default::default(),
744            target: Default::default(),
745            host: Default::default(),
746            cdb: Default::default(),
747            cdb_version: Default::default(),
748            gdb: Default::default(),
749            gdb_version: Default::default(),
750            lldb_version: Default::default(),
751            llvm_version: Default::default(),
752            system_llvm: Default::default(),
753            android_cross_path: Default::default(),
754            adb_path: Default::default(),
755            adb_test_dir: Default::default(),
756            adb_device_status: Default::default(),
757            lldb_python_dir: Default::default(),
758            verbose: Default::default(),
759            color: Default::default(),
760            remote_test_client: Default::default(),
761            compare_mode: Default::default(),
762            rustfix_coverage: Default::default(),
763            has_html_tidy: Default::default(),
764            has_enzyme: Default::default(),
765            channel: Default::default(),
766            git_hash: Default::default(),
767            cc: Default::default(),
768            cxx: Default::default(),
769            cflags: Default::default(),
770            cxxflags: Default::default(),
771            ar: Default::default(),
772            target_linker: Default::default(),
773            host_linker: Default::default(),
774            llvm_components: Default::default(),
775            nodejs: Default::default(),
776            npm: Default::default(),
777            force_rerun: Default::default(),
778            only_modified: Default::default(),
779            target_cfgs: Default::default(),
780            builtin_cfg_names: Default::default(),
781            supported_crate_types: Default::default(),
782            nocapture: Default::default(),
783            nightly_branch: Default::default(),
784            git_merge_commit_email: Default::default(),
785            profiler_runtime: Default::default(),
786            diff_command: Default::default(),
787            minicore_path: Default::default(),
788            default_codegen_backend: CodegenBackend::Llvm,
789            override_codegen_backend: None,
790        }
791    }
792
793    /// FIXME: this run scheme is... confusing.
794    pub fn run_enabled(&self) -> bool {
795        self.run.unwrap_or_else(|| {
796            // Auto-detect whether to run based on the platform.
797            !self.target.ends_with("-fuchsia")
798        })
799    }
800
801    pub fn target_cfgs(&self) -> &TargetCfgs {
802        self.target_cfgs.get_or_init(|| TargetCfgs::new(self))
803    }
804
805    pub fn target_cfg(&self) -> &TargetCfg {
806        &self.target_cfgs().current
807    }
808
809    pub fn matches_arch(&self, arch: &str) -> bool {
810        self.target_cfg().arch == arch ||
811        // Matching all the thumb variants as one can be convenient.
812        // (thumbv6m, thumbv7em, thumbv7m, etc.)
813        (arch == "thumb" && self.target.starts_with("thumb"))
814    }
815
816    pub fn matches_os(&self, os: &str) -> bool {
817        self.target_cfg().os == os
818    }
819
820    pub fn matches_env(&self, env: &str) -> bool {
821        self.target_cfg().env == env
822    }
823
824    pub fn matches_abi(&self, abi: &str) -> bool {
825        self.target_cfg().abi == abi
826    }
827
828    pub fn matches_family(&self, family: &str) -> bool {
829        self.target_cfg().families.iter().any(|f| f == family)
830    }
831
832    pub fn is_big_endian(&self) -> bool {
833        self.target_cfg().endian == Endian::Big
834    }
835
836    pub fn get_pointer_width(&self) -> u32 {
837        *&self.target_cfg().pointer_width
838    }
839
840    pub fn can_unwind(&self) -> bool {
841        self.target_cfg().panic == PanicStrategy::Unwind
842    }
843
844    /// Get the list of builtin, 'well known' cfg names
845    pub fn builtin_cfg_names(&self) -> &HashSet<String> {
846        self.builtin_cfg_names.get_or_init(|| builtin_cfg_names(self))
847    }
848
849    /// Get the list of crate types that the target platform supports.
850    pub fn supported_crate_types(&self) -> &HashSet<String> {
851        self.supported_crate_types.get_or_init(|| supported_crate_types(self))
852    }
853
854    pub fn has_threads(&self) -> bool {
855        // Wasm targets don't have threads unless `-threads` is in the target
856        // name, such as `wasm32-wasip1-threads`.
857        if self.target.starts_with("wasm") {
858            return self.target.contains("threads");
859        }
860        true
861    }
862
863    pub fn has_asm_support(&self) -> bool {
864        // This should match the stable list in `LoweringContext::lower_inline_asm`.
865        static ASM_SUPPORTED_ARCHS: &[&str] = &[
866            "x86",
867            "x86_64",
868            "arm",
869            "aarch64",
870            "arm64ec",
871            "riscv32",
872            "riscv64",
873            "loongarch32",
874            "loongarch64",
875            "s390x",
876            // These targets require an additional asm_experimental_arch feature.
877            // "nvptx64", "hexagon", "mips", "mips64", "spirv", "wasm32",
878        ];
879        ASM_SUPPORTED_ARCHS.contains(&self.target_cfg().arch.as_str())
880    }
881
882    pub fn git_config(&self) -> GitConfig<'_> {
883        GitConfig {
884            nightly_branch: &self.nightly_branch,
885            git_merge_commit_email: &self.git_merge_commit_email,
886        }
887    }
888
889    pub fn has_subprocess_support(&self) -> bool {
890        // FIXME(#135928): compiletest is always a **host** tool. Building and running an
891        // capability detection executable against the **target** is not trivial. The short term
892        // solution here is to hard-code some targets to allow/deny, unfortunately.
893
894        let unsupported_target = self.target_cfg().env == "sgx"
895            || matches!(self.target_cfg().arch.as_str(), "wasm32" | "wasm64")
896            || self.target_cfg().os == "emscripten";
897        !unsupported_target
898    }
899}
900
901/// Known widths of `target_has_atomic`.
902pub const KNOWN_TARGET_HAS_ATOMIC_WIDTHS: &[&str] = &["8", "16", "32", "64", "128", "ptr"];
903
904#[derive(Debug, Clone)]
905pub struct TargetCfgs {
906    pub current: TargetCfg,
907    pub all_targets: HashSet<String>,
908    pub all_archs: HashSet<String>,
909    pub all_oses: HashSet<String>,
910    pub all_oses_and_envs: HashSet<String>,
911    pub all_envs: HashSet<String>,
912    pub all_abis: HashSet<String>,
913    pub all_families: HashSet<String>,
914    pub all_pointer_widths: HashSet<String>,
915    pub all_rustc_abis: HashSet<String>,
916}
917
918impl TargetCfgs {
919    fn new(config: &Config) -> TargetCfgs {
920        let mut targets: HashMap<String, TargetCfg> = serde_json::from_str(&query_rustc_output(
921            config,
922            &["--print=all-target-specs-json", "-Zunstable-options"],
923            Default::default(),
924        ))
925        .unwrap();
926
927        let mut all_targets = HashSet::new();
928        let mut all_archs = HashSet::new();
929        let mut all_oses = HashSet::new();
930        let mut all_oses_and_envs = HashSet::new();
931        let mut all_envs = HashSet::new();
932        let mut all_abis = HashSet::new();
933        let mut all_families = HashSet::new();
934        let mut all_pointer_widths = HashSet::new();
935        // NOTE: for distinction between `abi` and `rustc_abi`, see comment on
936        // `TargetCfg::rustc_abi`.
937        let mut all_rustc_abis = HashSet::new();
938
939        // If current target is not included in the `--print=all-target-specs-json` output,
940        // we check whether it is a custom target from the user or a synthetic target from bootstrap.
941        if !targets.contains_key(&config.target) {
942            let mut envs: HashMap<String, String> = HashMap::new();
943
944            if let Ok(t) = std::env::var("RUST_TARGET_PATH") {
945                envs.insert("RUST_TARGET_PATH".into(), t);
946            }
947
948            // This returns false only when the target is neither a synthetic target
949            // nor a custom target from the user, indicating it is most likely invalid.
950            if config.target.ends_with(".json") || !envs.is_empty() {
951                targets.insert(
952                    config.target.clone(),
953                    serde_json::from_str(&query_rustc_output(
954                        config,
955                        &[
956                            "--print=target-spec-json",
957                            "-Zunstable-options",
958                            "--target",
959                            &config.target,
960                        ],
961                        envs,
962                    ))
963                    .unwrap(),
964                );
965            }
966        }
967
968        for (target, cfg) in targets.iter() {
969            all_archs.insert(cfg.arch.clone());
970            all_oses.insert(cfg.os.clone());
971            all_oses_and_envs.insert(cfg.os_and_env());
972            all_envs.insert(cfg.env.clone());
973            all_abis.insert(cfg.abi.clone());
974            for family in &cfg.families {
975                all_families.insert(family.clone());
976            }
977            all_pointer_widths.insert(format!("{}bit", cfg.pointer_width));
978            if let Some(rustc_abi) = &cfg.rustc_abi {
979                all_rustc_abis.insert(rustc_abi.clone());
980            }
981            all_targets.insert(target.clone());
982        }
983
984        Self {
985            current: Self::get_current_target_config(config, &targets),
986            all_targets,
987            all_archs,
988            all_oses,
989            all_oses_and_envs,
990            all_envs,
991            all_abis,
992            all_families,
993            all_pointer_widths,
994            all_rustc_abis,
995        }
996    }
997
998    fn get_current_target_config(
999        config: &Config,
1000        targets: &HashMap<String, TargetCfg>,
1001    ) -> TargetCfg {
1002        let mut cfg = targets[&config.target].clone();
1003
1004        // To get the target information for the current target, we take the target spec obtained
1005        // from `--print=all-target-specs-json`, and then we enrich it with the information
1006        // gathered from `--print=cfg --target=$target`.
1007        //
1008        // This is done because some parts of the target spec can be overridden with `-C` flags,
1009        // which are respected for `--print=cfg` but not for `--print=all-target-specs-json`. The
1010        // code below extracts them from `--print=cfg`: make sure to only override fields that can
1011        // actually be changed with `-C` flags.
1012        for config in query_rustc_output(
1013            config,
1014            &["--print=cfg", "--target", &config.target],
1015            Default::default(),
1016        )
1017        .trim()
1018        .lines()
1019        {
1020            let (name, value) = config
1021                .split_once("=\"")
1022                .map(|(name, value)| {
1023                    (
1024                        name,
1025                        Some(
1026                            value
1027                                .strip_suffix('\"')
1028                                .expect("key-value pair should be properly quoted"),
1029                        ),
1030                    )
1031                })
1032                .unwrap_or_else(|| (config, None));
1033
1034            match (name, value) {
1035                // Can be overridden with `-C panic=$strategy`.
1036                ("panic", Some("abort")) => cfg.panic = PanicStrategy::Abort,
1037                ("panic", Some("unwind")) => cfg.panic = PanicStrategy::Unwind,
1038                ("panic", other) => panic!("unexpected value for panic cfg: {other:?}"),
1039
1040                ("target_has_atomic", Some(width))
1041                    if KNOWN_TARGET_HAS_ATOMIC_WIDTHS.contains(&width) =>
1042                {
1043                    cfg.target_has_atomic.insert(width.to_string());
1044                }
1045                ("target_has_atomic", Some(other)) => {
1046                    panic!("unexpected value for `target_has_atomic` cfg: {other:?}")
1047                }
1048                // Nightly-only std-internal impl detail.
1049                ("target_has_atomic", None) => {}
1050                _ => {}
1051            }
1052        }
1053
1054        cfg
1055    }
1056}
1057
1058#[derive(Clone, Debug, serde::Deserialize)]
1059#[serde(rename_all = "kebab-case")]
1060pub struct TargetCfg {
1061    pub(crate) arch: String,
1062    #[serde(default = "default_os")]
1063    pub(crate) os: String,
1064    #[serde(default)]
1065    pub(crate) env: String,
1066    #[serde(default)]
1067    pub(crate) abi: String,
1068    #[serde(rename = "target-family", default)]
1069    pub(crate) families: Vec<String>,
1070    #[serde(rename = "target-pointer-width")]
1071    pub(crate) pointer_width: u32,
1072    #[serde(rename = "target-endian", default)]
1073    endian: Endian,
1074    #[serde(rename = "panic-strategy", default)]
1075    pub(crate) panic: PanicStrategy,
1076    #[serde(default)]
1077    pub(crate) dynamic_linking: bool,
1078    #[serde(rename = "supported-sanitizers", default)]
1079    pub(crate) sanitizers: Vec<Sanitizer>,
1080    #[serde(rename = "supports-xray", default)]
1081    pub(crate) xray: bool,
1082    #[serde(default = "default_reloc_model")]
1083    pub(crate) relocation_model: String,
1084    // NOTE: `rustc_abi` should not be confused with `abi`. `rustc_abi` was introduced in #137037 to
1085    // make SSE2 *required* by the ABI (kind of a hack to make a target feature *required* via the
1086    // target spec).
1087    pub(crate) rustc_abi: Option<String>,
1088
1089    // Not present in target cfg json output, additional derived information.
1090    #[serde(skip)]
1091    /// Supported target atomic widths: e.g. `8` to `128` or `ptr`. This is derived from the builtin
1092    /// `target_has_atomic` `cfg`s e.g. `target_has_atomic="8"`.
1093    pub(crate) target_has_atomic: BTreeSet<String>,
1094}
1095
1096impl TargetCfg {
1097    pub(crate) fn os_and_env(&self) -> String {
1098        format!("{}-{}", self.os, self.env)
1099    }
1100}
1101
1102fn default_os() -> String {
1103    "none".into()
1104}
1105
1106fn default_reloc_model() -> String {
1107    "pic".into()
1108}
1109
1110#[derive(Eq, PartialEq, Clone, Debug, Default, serde::Deserialize)]
1111#[serde(rename_all = "kebab-case")]
1112pub enum Endian {
1113    #[default]
1114    Little,
1115    Big,
1116}
1117
1118fn builtin_cfg_names(config: &Config) -> HashSet<String> {
1119    query_rustc_output(
1120        config,
1121        &["--print=check-cfg", "-Zunstable-options", "--check-cfg=cfg()"],
1122        Default::default(),
1123    )
1124    .lines()
1125    .map(|l| if let Some((name, _)) = l.split_once('=') { name.to_string() } else { l.to_string() })
1126    .chain(std::iter::once(String::from("test")))
1127    .collect()
1128}
1129
1130pub const KNOWN_CRATE_TYPES: &[&str] =
1131    &["bin", "cdylib", "dylib", "lib", "proc-macro", "rlib", "staticlib"];
1132
1133fn supported_crate_types(config: &Config) -> HashSet<String> {
1134    let crate_types: HashSet<_> = query_rustc_output(
1135        config,
1136        &["--target", &config.target, "--print=supported-crate-types", "-Zunstable-options"],
1137        Default::default(),
1138    )
1139    .lines()
1140    .map(|l| l.to_string())
1141    .collect();
1142
1143    for crate_type in crate_types.iter() {
1144        assert!(
1145            KNOWN_CRATE_TYPES.contains(&crate_type.as_str()),
1146            "unexpected crate type `{}`: known crate types are {:?}",
1147            crate_type,
1148            KNOWN_CRATE_TYPES
1149        );
1150    }
1151
1152    crate_types
1153}
1154
1155fn query_rustc_output(config: &Config, args: &[&str], envs: HashMap<String, String>) -> String {
1156    let query_rustc_path = config.query_rustc_path.as_deref().unwrap_or(&config.rustc_path);
1157
1158    let mut command = Command::new(query_rustc_path);
1159    add_dylib_path(&mut command, iter::once(&config.compile_lib_path));
1160    command.args(&config.target_rustcflags).args(args);
1161    command.env("RUSTC_BOOTSTRAP", "1");
1162    command.envs(envs);
1163
1164    let output = match command.output() {
1165        Ok(output) => output,
1166        Err(e) => {
1167            fatal!("failed to run {command:?}: {e}");
1168        }
1169    };
1170    if !output.status.success() {
1171        fatal!(
1172            "failed to run {command:?}\n--- stdout\n{}\n--- stderr\n{}",
1173            String::from_utf8(output.stdout).unwrap(),
1174            String::from_utf8(output.stderr).unwrap(),
1175        );
1176    }
1177    String::from_utf8(output.stdout).unwrap()
1178}
1179
1180#[derive(Debug, Clone)]
1181pub struct TestPaths {
1182    pub file: Utf8PathBuf,         // e.g., compile-test/foo/bar/baz.rs
1183    pub relative_dir: Utf8PathBuf, // e.g., foo/bar
1184}
1185
1186/// Used by `ui` tests to generate things like `foo.stderr` from `foo.rs`.
1187pub fn expected_output_path(
1188    testpaths: &TestPaths,
1189    revision: Option<&str>,
1190    compare_mode: &Option<CompareMode>,
1191    kind: &str,
1192) -> Utf8PathBuf {
1193    assert!(UI_EXTENSIONS.contains(&kind));
1194    let mut parts = Vec::new();
1195
1196    if let Some(x) = revision {
1197        parts.push(x);
1198    }
1199    if let Some(ref x) = *compare_mode {
1200        parts.push(x.to_str());
1201    }
1202    parts.push(kind);
1203
1204    let extension = parts.join(".");
1205    testpaths.file.with_extension(extension)
1206}
1207
1208pub const UI_EXTENSIONS: &[&str] = &[
1209    UI_STDERR,
1210    UI_SVG,
1211    UI_WINDOWS_SVG,
1212    UI_STDOUT,
1213    UI_FIXED,
1214    UI_RUN_STDERR,
1215    UI_RUN_STDOUT,
1216    UI_STDERR_64,
1217    UI_STDERR_32,
1218    UI_STDERR_16,
1219    UI_COVERAGE,
1220    UI_COVERAGE_MAP,
1221];
1222pub const UI_STDERR: &str = "stderr";
1223pub const UI_SVG: &str = "svg";
1224pub const UI_WINDOWS_SVG: &str = "windows.svg";
1225pub const UI_STDOUT: &str = "stdout";
1226pub const UI_FIXED: &str = "fixed";
1227pub const UI_RUN_STDERR: &str = "run.stderr";
1228pub const UI_RUN_STDOUT: &str = "run.stdout";
1229pub const UI_STDERR_64: &str = "64bit.stderr";
1230pub const UI_STDERR_32: &str = "32bit.stderr";
1231pub const UI_STDERR_16: &str = "16bit.stderr";
1232pub const UI_COVERAGE: &str = "coverage";
1233pub const UI_COVERAGE_MAP: &str = "cov-map";
1234
1235/// Absolute path to the directory where all output for all tests in the given `relative_dir` group
1236/// should reside. Example:
1237///
1238/// ```text
1239/// /path/to/build/host-tuple/test/ui/relative/
1240/// ```
1241///
1242/// This is created early when tests are collected to avoid race conditions.
1243pub fn output_relative_path(config: &Config, relative_dir: &Utf8Path) -> Utf8PathBuf {
1244    config.build_test_suite_root.join(relative_dir)
1245}
1246
1247/// Generates a unique name for the test, such as `testname.revision.mode`.
1248pub fn output_testname_unique(
1249    config: &Config,
1250    testpaths: &TestPaths,
1251    revision: Option<&str>,
1252) -> Utf8PathBuf {
1253    let mode = config.compare_mode.as_ref().map_or("", |m| m.to_str());
1254    let debugger = config.debugger.as_ref().map_or("", |m| m.to_str());
1255    Utf8PathBuf::from(&testpaths.file.file_stem().unwrap())
1256        .with_extra_extension(config.mode.output_dir_disambiguator())
1257        .with_extra_extension(revision.unwrap_or(""))
1258        .with_extra_extension(mode)
1259        .with_extra_extension(debugger)
1260}
1261
1262/// Absolute path to the directory where all output for the given
1263/// test/revision should reside. Example:
1264///   /path/to/build/host-tuple/test/ui/relative/testname.revision.mode/
1265pub fn output_base_dir(
1266    config: &Config,
1267    testpaths: &TestPaths,
1268    revision: Option<&str>,
1269) -> Utf8PathBuf {
1270    output_relative_path(config, &testpaths.relative_dir)
1271        .join(output_testname_unique(config, testpaths, revision))
1272}
1273
1274/// Absolute path to the base filename used as output for the given
1275/// test/revision. Example:
1276///   /path/to/build/host-tuple/test/ui/relative/testname.revision.mode/testname
1277pub fn output_base_name(
1278    config: &Config,
1279    testpaths: &TestPaths,
1280    revision: Option<&str>,
1281) -> Utf8PathBuf {
1282    output_base_dir(config, testpaths, revision).join(testpaths.file.file_stem().unwrap())
1283}
1284
1285/// Absolute path to the directory to use for incremental compilation. Example:
1286///   /path/to/build/host-tuple/test/ui/relative/testname.mode/testname.inc
1287pub fn incremental_dir(
1288    config: &Config,
1289    testpaths: &TestPaths,
1290    revision: Option<&str>,
1291) -> Utf8PathBuf {
1292    output_base_name(config, testpaths, revision).with_extension("inc")
1293}