macos-latest changed to arm64. It should not be hard to switch our setup
to cross-compiling x64 instead of arm64 but let's get master green again
first.
On Windows, we now compile all core `.o`s twice, once with and without
`dllexport`, for use in the shipped dynamic and static libraries,
respectively. On other platforms, we export always as before to avoid
the duplicate work.
---------
Co-authored-by: tydeu <tydeu@hatpress.net>
This adds the concept of **functional induction** to lean.
Derived from the definition of a (possibly mutually) recursive function,
a **functional
induction principle** is tailored to proofs about that function. For
example from:
```
def ackermann : Nat → Nat → Nat
| 0, m => m + 1
| n+1, 0 => ackermann n 1
| n+1, m+1 => ackermann n (ackermann (n + 1) m)
derive_functional_induction ackermann
```
we get
```
ackermann.induct (motive : Nat → Nat → Prop) (case1 : ∀ (m : Nat), motive 0 m)
(case2 : ∀ (n : Nat), motive n 1 → motive (Nat.succ n) 0)
(case3 : ∀ (n m : Nat), motive (n + 1) m → motive n (ackermann (n + 1) m) → motive (Nat.succ n) (Nat.succ m))
(x x : Nat) : motive x x
```
At the moment, the user has to ask for the functional induction
principle explicitly using
```
derive_functional_induction ackermann
```
The module docstring of `Lean/Meta/Tactic/FunInd.lean` contains more
details on the
design and implementation of this command.
More convenience around this (e.g. a `functional induction` tactic) will
follow eventually.
This PR includes a bunch of `PSum`/`PSigma` related functions in the
`Lean.Tactic.FunInd`
namespace. I plan to move these to `PackArgs`/`PackMutual` afterwards,
and do some cleaning
up as I do that.
---------
Co-authored-by: David Thrane Christiansen <david@davidchristiansen.dk>
Co-authored-by: Leonardo de Moura <leomoura@amazon.com>
Makes the LLVM triple of the current platform available to Lean code
towards a solution for #2754.
Defaults to the empty string if the compiler is not clang, which can
introduce some divergence between CI and local builds but should not be
noticeable in most cases and is not really possible to avoid.
I keep messing things up, so time for some guard rails, so check them
using
[actionlint](https://github.com/raven-actions/actionlint).
This also runs [shellcheck](https://www.shellcheck.net/) on the files.
Shellcheck
is a bit picky about putting double quotes around variables, and will
flag many
cases where we know it’s safe, but why not simply always write the safer
variant.
Unfortunately, actionlint does not (yet) check `actions/github-script`
scripts, which is
unfortunate. Maybe they will in the future
(https://github.com/rhysd/actionlint/issues/389)
CI will now run on _any_ manually added label; hard to avoid.
Fun fact: Because the `toolchain-available` label is added by a github
action with the default token, it will _not_ trigger the workflow. Lucky
coincidence.
Following up on #2986, stop running the test suite in ci.yml in quick
mode; the test suite is run in the Nix job, and we do not need to run it
twice.
With a cold nix cache, when `lean` is rebuilt, not much changes, as both
jobs take ~20mins. But when `lean` is unchanged, the nix build should
be faster, and shaving off the (currently) 4mins in the CI.yaml run
should get us to a green PR sooner.
Another benefit is that we get the PR release sooner and even get it
when the test suite fails, which can be useful if you want to test
mathlib or other things before fixing the lean test suite.
The goal of this change is to run a trimmed-down CI on PRs by default,
but allows opt-in the full CI as necessary.
### Specification
The CI workflow runs in “quick” mode if it was triggered from a pull
request, and that pull request does not have the `full-ci` label set.
In “quick” mode the build matrix contains fewer jobs. At the moment
only:
* Linux-release, to get the PR releases.
In non-quick mode everything should be as before.
### Implementation notes
I created a `configure` job that combines all the previous `set-` jobs,
I guess this is faster than firing up separate jobs.
The matrix is calculated in this job; this seems to be the cleanest way
to get a dynamic matrix going (experiments using `exclude` failed). The
downside is that the matrix is now in JSON rather than Yaml syntax. The
upside is that we can (later) make it’s calculation simpler, e.g. set
default `shell` values etc.
I was not able to make it so that CI runs when the `full-ci` label is
added, but don’t do anything otherwise. I think it can be done with
another workflow listening to `labeled` and then triggering this one,
but let’s do that separately. For now, add the label and then push (or
close and reopen).
The checks
```
if: matrix.build-stage2 || matrix.check-stage3
if: matrix.check-stage3
```
were dead code, we did not have these fields in the matrix anymore, so I
replaced them with
```
if: matrix.test-speedcenter
```
there is a little dance with `if: success()` because otherwise a failed
`build` job would make this new job skipped, not failed, and I fear
skipped means ok when it is a required job.
So let’s make sure this job actually fails.
This is an additional safety net on top of #2749: it protects users that
circumvent the build system (e.g. with `lake env`) as well as obviates
the need for TOCTOU-like race condition checks in the build system.
The check is activated by `CHECK_OLEAN_VERSION=ON`, which now defaults
to `OFF` as the sensible default for local development. When activated,
`USE_GITHASH=ON` is also force-enabled for stage 0 in order to make sure
that stage 1 can load its own core library.
