take a const ValueBase* instead of a SILValue, implement SILArgument
cases for a few visitors and opt others out explicitly, and assert
that classes in the SIL value hierarchy override their superclass's
classof.
Swift SVN r4705
ArchetypeMethodInst, like ProtocolMethodInst, actually needs to be modeled as returning a thick function type, in order to represent the metadata parameter to the witness table function. With that change to SILGen, implement ArchetypeMethodInst IRGen.
Swift SVN r4688
On second thought, having SILConstant be able to point to a TLCD is going
against the goal of making SILConstant be a "SILGen thing". I'll find another
approach.
Swift SVN r4680
Create a new FallthroughStmt, which transfers control from a 'case' or 'default' block to the next 'case' or 'default' block within a switch. Implement parsing and sema for FallthroughStmt, which syntactically consists of a single 'fallthrough' keyword. Sema verifies that 'fallthrough' actually appears inside a switch statement and that there is a following case or default block to pass control to.
SILGen/IRGen support forthcoming.
Swift SVN r4653
LLVM r179073 fixed PointerIntPair to work with an enum class as the IntType member, so we can kill some boilerplate in a few type implementations that were explicitly casting to unsigned to work around PointerIntPair's limitations.
Swift SVN r4652
+0.0 - ±0.0 == ±0.0, so the correct definition of '-x' is '-0.0 - x'. However, this would be infinitely recursive, so I added an 'fneg' builtin that lowers directly to 'fsub -0.0, %x', and redefined the unary - operators for floats in terms of it.
Swift SVN r4634
Unfortunately, this regresses the repl when expressions like (1,2) are entered. This is because the repl is violating some invariants (forming dags out of ASTs, making ASDAG's which upset the type checker). I'm going to fix this next, but can't bring myself to do it in the same commit.
Swift SVN r4617
Per John's comments, make a GenericBox struct to represent the layout of a generic box allocation, move all the layout calculations into methods on GenericBox, and alter swift_deallocBox to take the type as an argument so that it's future-proofed for when we start special-casing certain types in allocBox.
Swift SVN r4613
Add a runtime function that, given a generic type metadata pointer, allocates a heap object capable of containing a value of that type. This is a first-pass implementation that always does the worst case thing of stuffing the type metadata into the box with the value and using its value witness table to size, align, and destroy the box. Use swift_allocBox to implement ArchetypeTypeInfo::allocate correctly for heap object allocations. This means SIL's alloc_box $T now works for archetypes, and a simple generics test now (almost) compiles through SIL!
Swift SVN r4599
Collect the substitutions from SpecializeInsts and use them when emitting an ApplyInst to pass archetype parameters and to reexplode arguments at the right abstraction level for the generic callee. Unfortunately, ArchetypeTypeInfo::allocate() is broken, so alloc_box $T for an archetype type T doesn't yet work.
Swift SVN r4597
At the top level, if 'operator' is followed by 'infix', 'prefix', or 'postfix', consider it a contextual keyword, and parse an operator decl following it that looks like:
operator {infix|postfix|prefix} <+> {
attributes…
}
Prefix and postfix operator decls currently admit no attributes. Infix operators have 'associativity {left|right|none}' and 'precedence <int>' attributes.
This patch implements parsing for operator declarations but does not yet attach the declared attributes to func decls for the operators.
Swift SVN r4596
Function and compound types have a bunch of extra calling convention and uncurrying info stuffed into a "SILTypeInfo" object that until now had to be fetched through the SILModule. Change the representation of SILType to be a PointerUnion of CanType and SILTypeInfo*, and move the uncurry level onto the SILTypeInfo for functions, so that SILTypeInfo is available directly through the SILType and SILType can go back to being pointer-sized.
Swift SVN r4582
Look at the uses of a SIL MetatypeInst to determine whether it is being used as a Swift metatype and/or ObjC class and emit the needed values. This avoids a costly trip wrapping and unwrapping ObjC Classes in a Swift metatype when they're just used to invoke class methods.
Swift SVN r4562
For ObjC class method calls, map a metatype value back to an objc Class before emitting the ObjC call. This is dumb because we already map the original Class to a Swift metatype when we map the metatype instruction, but it gets ObjC class method calls working. Now that SIL keeps use chains, we could be easily smarter about this.
Swift SVN r4558
Introduce cleanups onto arguments to SIL apply instructions, and let CallEmission consume the cleanups corresponding to the values consumed by the called function, so that releases will be emitted as needed to make a foreign call conform to Swift ownership conventions.
Swift SVN r4556
If the IR calling convention for a type SIL considers loadable requires an indirect return, for example, for large structs, map the SIL direct return to an indirect return.
Swift SVN r4553
Represent class_method and super_method SIL values using an ObjCMethod variant of LoweredValue that holds the necessary information to emit an objc_msgSend* call when the value is apply-ed. You can't really use ObjC objects from SIL IRGen yet because SILGen doesn't yet visit external definitions from the Clang importer.
Swift SVN r4550
Preserve the AbstractCC of a function symbol when emitting a SIL ConstantRefInst by adding a new StaticFunction variant to LoweredValue. This lets us avoid a bunch of bitcasting noise for static functions that aren't used as values, and will lets us emit C-to-Swift-ABI thunks on demand when C functions are used as values.
Swift SVN r4543
Implement type-checking and IRGen for 'x is T', and fix a bug in 'x as! T' typechecking when the operand is an lvalue. For IRGen I'm reusing the checked swift_dynamicCastClass runtime function and testing the result against null.
Swift SVN r4515
Provide distinct syntax 'a as T' for coercions and 'a as! T' for unchecked downcasts, and add type-checker logic specialized to coercions and downcasts for these expressions. Change the AST representation of ExplicitCastExpr to keep the destination type as a TypeLoc rather than a subexpression, and change the names of the nodes to UncheckedDowncast and UncheckedSuperToArchetype to make their unchecked-ness explicit and disambiguate them from future checked casts.
In order to keep the changes staged, this doesn't yet affect the T(x) constructor syntax, which will for the time being still perform any construction, coercion, or cast.
Swift SVN r4498
All the other implicit conversions have been given their own instructions, so specialize this ill-specified instruction to its one remaining use, for converting compatible function types.
Swift SVN r4482
Set up IRGen to emit SIL code that uses top-level-code global variables. Add -sil-i to a bunch of Interpreter tests that use global variables.
Swift SVN r4480
In top-level code, global variables are notionally local variables of the "main" function, but we give them global storage as an implementation detail. Add the ability to represent physical global variables to SILConstant, and emit top-level-code global variable initializers and references in terms of the physical address.
Swift SVN r4479
CapturingExprs get mapped to referenceable SILConstants by SILGen instead of getting emitted in-place as in IRGen, so they need LinkEntities and mangling. For now I just mangle them all to "closure", which matches what old IRGen does.
Swift SVN r4477
