For a redundant pair of pointer-address conversions, e.g.
%2 = address_to_pointer %1
%3 = pointer_to_address %2 [strict]
replace all uses of %3 with %1.
Look through `upcast` and `init_existential_ref` instructions and replace the operand of this cast instruction with the original value.
For example:
```
%2 = upcast %1 : $Derived to $Base
%3 = init_existential_ref %2 : $Base : $Base, $AnyObject
checked_cast_br %3 : $AnyObject to Derived, bb1, bb2
```
This makes it more likely that the cast can be constant folded because the source operand's type is more accurate.
In the example above, the cast reduces to
```
checked_cast_br %1 : $Derived to Derived, bb1, bb2
```
which can be trivially folded to always-succeeds.
Found while looking at `_SwiftDeferredNSDictionary.bridgeValues()`
Optimize the sequence
```
%1 = init_enum_data_addr %enum_addr, #someCaseWithPayload
store %payload to %1
inject_enum_addr %enum_addr, #someCaseWithPayload
```
to
```
%1 = enum $E, #someCaseWithPayload, %payload
store %1 to %enum_addr
```
This sequence of three instructions must appear in consecutive order.
But usually this is the case, because it's generated this way by SILGen.
This comes up in the code for constructing an empty string literal.
With this optimization it's possible to statically initialize empty string global variables.
* move the apply of partial_apply transformation from simplify-apply to simplify-partial_apply
* delete dead partial_apply instructions
* devirtualize apply, try_apply and begin_apply
Eliminate the redundant instruction pair
```
%t = tuple (%0, %1, %2)
(%3, %4, %5) = destructure_tuple %t
```
and replace the results %3, %4, %5 with %0, %1, %2, respectively.
The same for structs.
