Explorer AST
The code in this directory defines the AST that represents Carbon code in the rest of explorer
.
The AST is not quite immutable, because some node properties are set during some phase of static analysis, rather than during parsing. However, AST mutations are monotonic: once set, a node property cannot be changed. Furthermore, if a property is set after parsing, its documentation specifies what phase is responsible for setting it. Certain properties have has_foo()
members for querying whether they are set, but those are for internal use within the phase that sets them. As a result, you can think of the AST as if it were immutable, but with certain parts that you can’t yet observe, depending on what phase of compilation you’re in.
All node types in the AST are derived from AstNode
, and use LLVM-style RTTI to support safe down-casting and similar operations. Each abstract class Foo
in the hierarchy has a kind
method which returns a enum FooKind
that identifies the concrete type of the object, and a FooKind
value can be safely static_cast
ed to BarKind
if that value represents a type that’s derived from both Foo
and Bar
.
These FooKind
enums are generated from a description of the class hierarchy that is provided by X macros defined in ast_kinds.h
that specify the classes derived from each AST base class. Those macros must be kept up to date as the class hierarchy changes.
The AST class hierarchy is structured in a fairly unsurprising way, with abstract classes such as Statement
and Expression
, and concrete classes representing individual syntactic constructs, such as If
for if-statements.
Sometimes it is useful to work with a subset of node types that “cuts across” the primary class hierarchy. Rather than deal with the pitfalls of multiple inheritance, we handle these cases using a form of type erasure: we specify a notional interface that those types conform to, and then define a “view” class that behaves like a pointer to an instance of that interface. Types declare that they model an interface Foo
by defining a public static member named ImplementsCarbonFoo
. See ValueNodeView for an example of this pattern.