Else the `case` will now allow introducing all necessary variables.
Induction principles with `let` in the types of the cases will be more
common with #3432.
This implementation no longer reduces the type as it goes, but really
only counts
manifest foralls and lets. I find this more sensible and predictable: If
you have
```
theorem induction₂_symm {P : EReal → EReal → Prop} (symm : Symmetric P) …
```
then previously, writing
```
case symm =>
```
would actually bring a fresh `x` and `y` and variable `h : P x y` into
scope and produce a
goal of `P y x`, because `Symmetric P` happens to be
```
def Symmetric := ∀ ⦃x y⦄, x ≺ y → y ≺ x
```
After this change, after `case symm =>` will leave `Symmetric P` as the
goal.
This gives more control to the author of the induction hypothesis about
the actual
goal of the cases. This shows up in mathlib in two places; fixes in
https://github.com/leanprover-community/mathlib4/pull/11023.
I consider these improvements.
When using `set_option tactic.skipAssignedInstances false`, `simp` and
`rw` will synthesize instance implicit arguments even if they have
assigned by unification. If the synthesized argument does not match the
assigned one the rewrite is not performed. This option has been added
for backward compatibility.
This is still a draft PR, but includes the core exact? and apply?
tactics.
Still need to convert to builtin syntax and test on Std.
---------
Co-authored-by: David Thrane Christiansen <david@davidchristiansen.dk>
PR #3432 will introduce more operations on `MatcherApp`, including somet
that have more dependencies.
This change prepares by introducing `Lean.Meta.Match.MatcherApp.Basic`
for the basic definition, and `Lean.Meta.MatcherApp.Transform` for the
transformations, currently `addArg` and `refineThrough`, but more to
come.
This is a quite substantial tactic.
It also includes the infamour `NatCast` typeclass (which I've equipped
with a module-doc). I wasn't at all sure where that should live, so it
is currently randomly in `Lean/Elan/Tactic/NatCast.lean`: presumably if
we're doing this it will go somewhere in `Init`.
---------
Co-authored-by: Leonardo de Moura <leomoura@amazon.com>
Before the `zeta` / `zetaDelta` split, `dsimp` was performing `zeta`
by going inside of a `let`-expression, performing `zetaDelta`, and
then removing the unused `let`-expression.
Incrementally unveil trace children for excessively large nodes to
improve infoview rendering time, adjust particularly chatty
`simp.ground` trace to make use of it.
We previously had the syntax for `change` and `change at`, but no
implementation.
This moves Kyle's implementation from Std.
This also changes the `changeLocalDecl` function to push nodes to the
infotree about FVar aliases.
---------
Co-authored-by: Leonardo de Moura <leomoura@amazon.com>
Co-authored-by: David Thrane Christiansen <david@davidchristiansen.dk>
This moves the `rcases` and `obtain` tactics from Std, and makes them
built-in tactics.
We will separately move the test cases from Std after #3297
(`guard_expr`).
---------
Co-authored-by: Leonardo de Moura <leomoura@amazon.com>
The induction principle used by `induction` may have explicit parameters
that are
not motive, target or “real” alternatives (that have the `motive` as
conclusion), e.g. restrictions on the `motive` or other parameters.
Previously, `induction` would treat them as normal alternatives, and try
to re-introduce the automatically reverted hypotheses. But this only
works when the `motive` is actually the conclusion in the type of that
alternative.
We now pay attention to that, thread that information through, and only
revert when needed.
Fixes#3212.
