AST used to depend on Sema in type printing. Specifically,
TypeVariableType::printImpl() is inside Sema.
This change moves the type variable identifier from
TypeVariableType::Implementation to TypeVariableType. This enables us to print
type variables in AST library.
Because type variable type is a temporary type for use inside type checker
only, I don't expect that we will modify it to be more verbose to enhance
diagnostics. This is a job for locator printing.
Swift SVN r8559
Introduce an EnumCaseDecl for source fidelity to track the 'case' location and ordering of EnumElementDecls. Parse a comma-separated list of EnumElementDecls after a 'case' token.
Swift SVN r8509
Implement the new rules for mapping between selector names and
constructors. The selector for a given constructor is formed by
looking at the names of the constructor parameters:
* For the first parameter, prepend "init" to the parameter name and
uppercase the first letter of the parameter name. Append ':' if
there are > 1 parameters or the parameter has non-empty-tuple type.
* For the remaining parameters, the name of each parameter followed
by ':'.
When a parameter doesn't exist, assume that the parameter name is the
empty string.
And, because I failed to commit it separately, support selector-style
declarations of constructor parameters so that we can actually write
constructors nicely, e.g.:
// selector is initWithFoo:bar:
constructor withFoo(foo : Foo) bar(bar : Bar) { ... }
Swift SVN r8361
ConstructorDecl::getBody() and DestructorDecl::getBody() return 'BraceStmt *'.
After changing the AST representation for functions, FuncDecl::getBody() will
return 'BraceStmt *' and FuncDecl::getFuncExpr() will be gone.
Swift SVN r8050
Essentially, fall back to the list of protocols (and possibly the superclass)
if the "inherited types" array is empty.
<rdar://problem/14788337>
Swift SVN r7884
This was not likely an error-free change. Where you see problems
please correct them. This went through a fairly tedious audit
before committing, but comments might have been changed incorrectly,
not changed at all, etc.
Swift SVN r7631
Previously, TypeAliasDecl was used for typealiases, generic
parameters, and assocaited types, which is hideous and the source of
much confusion. Factor the latter two out into their own decl nodes,
with a common abstract base for "type parameters", and push these
nodes throughout the frontend.
No real functionality change, but this is a step toward uniquing
polymorphic types, among other things.
Swift SVN r7345
Union cases were still being printed enum-style, and computed vars,
subscripts, and typealiases would print their definitions even when
the corresponding printing option was disabled. All fixed.
Swift SVN r7285
As discussed, this is an interim syntax for re-exports:
import [exported] Foundation
In the long run, we're probably going to use the same syntax as access
control for this, but that hasn't been designed yet.
Swift SVN r7050
This makes it very clean to reason about which part should be used
to find a module to load, and which part should be used to filter
lookup within that module.
This breaks the old "import swift.print" syntax in favor of the new
"import func swift.print", but the new syntax is currently ignored.
Swift SVN r6849
Also, update LangRef.
Note that an explicit "import module" has been left out for now, since
it's not strictly necessary and "module" isn't a keyword yet.
Swift SVN r6786
We haven't fully updated references to union cases, and enums still are not
their own thing yet, but "oneof" is gone. Long live "union"!
Swift SVN r6783
- Add the attribute to AnyFunctionType::ExtInfo.
- Propagate the attributes from DeclAttributes to AnyFunctionType for
FuncDecls in TypeCheckDecl.cpp.
- Make sure the new attribute is serialized.
The main missing pieces are checking the applicability of the type attributes
on the FuncDecl and teaching typechecker about conversions on types with
noreturn.
Swift SVN r6359
The semantics of varargs (only for the last element) make it more appropriate as a property of the TuplePattern.
Also free the Parser from needing to construct synthetic types (ArraySlice for type of vararg element) to
accommodate the TypeChecker and move the logic to the TypeChecker. This will be more beneficial when the parser stops
creating types in general.
Swift SVN r6271
These still need to be serialized, because they are one-to-one with the
type's protocol list, but don't actually require any data. Found on
attempting to emit a module for the standard library.
Most of the churn here is moving Interleave.h to a more general STLExtras.h.
Swift SVN r6167
We decided to go with 'var' as a distributive pattern introducer which applies to bare identifiers within the subpattern. For example, 'var (a, b)' and '(var a, var b)' would be equivalent patterns. To model this, give 'var' its own AST node with a subpattern and remove the introducer loc from NamedPattern.
Swift SVN r5824
I talked to John about parsing patterns today, and because of the magnitude of name-lookup-dependent ambiguities between patterns and expressions, we agreed that at least for a first-pass implementation it makes sense to parse patterns as extensions of the expr grammar and charge name binding with distinguishing patterns from expressions. This gets us out of needing the concept of an "unresolved pattern", at least in the short term.
Swift SVN r5808
A single case block can have one or more 'case ...:' labels. 'case' labels contain patterns instead of exprs. 'default:' is a funny spelling for 'case _:'. Change the CaseStmt representation and rip out all the parsing, type-checking, and SILGen built off the old representation.
Swift SVN r5795
Introduce Pattern subclasses for the 'is T', 'T(<pattern>)', and '<expr>' pattern syntaxes we'll be introducing for pattern-matching "switch" statements. Also add an 'UnresolvedCalLPattern' to act as an intermediate for name lookup to resolve to a nominal type, oneof element, or function call expression pattern. Since we'll need to be able to rewrite patterns like we do expressions, add setters to AST nodes that contain references to subpatterns. Implement some basic walking logic in places we search patterns for var decls, but punt on any more complex type-checking or SILGen derived from these nodes until we actually use them.
Swift SVN r5780
Sub-patterns are now considered part of the enclosing pattern, so if the
parent pattern pointer is const, the child pointer will be too.
I changed the minimal number of files to make this work, but future code
should use "const Pattern *" when intended, and "Pattern *" only if they
intend to modify the pattern.
Swift SVN r5743
Change AssignStmt into AssignExpr; this will make assignment behave more consistently with assignment-like operators, and is a first step toward integrating '=' parsing with SequenceExpr resolution so that '=' can obey precedence rules. This also nicely simplifies the AST representation of c-style ForStmts; the initializer and increment need only be Expr* instead of awkward Expr*/AssignStmt* unions.
This doesn't actually change any user-visible behavior yet; AssignExpr is still only parsed at statement scope, and typeCheckAssignment is still segregrated from the constraint checker at large. (In particular, a PipeClosureExpr containing a single assign expr in its body still doesn't use the assign expr to resolve its own type.) The parsing issue will be addressed by handling '=' during SequenceExpr resolution. typeCheckAssignment can hopefully be reworked to work within the constraint checker too.
Swift SVN r5500
We will handle Swift-function-to-ObjC-block bridging in SILGen as part of general Cocoa-to-Swift type bridging. Temporarily disable building swiftAppKit and tests that exercise block bridging until the new implementation lands.
Swift SVN r5090
Most of this is mechanical, because we weren't actually relying on
byref(heap) for anything. Simplify capture analysis, now that the only
way a variable can have non-fixed lifetime is if it is actually
captured. Fixes <rdar://problem/11247831>.
Swift SVN r5046
This nests top level PatternBindingDecls (in "main modules") under TopLevelCodeDecls,
instead of having them live in a translation unit. They contain code that is executed,
so they should be in a TLCD.
Swift SVN r4668
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
During name binding, associate func decls with operator decls. When parsing SequenceExprs, look up operator decls to determine associativity and precedence of infix operators. Remove the infix_left and infix_left attributes, and make the infix attribute a simple declared attribute [infix] with no precedence.
Operator decls are resolved as follows:
- If an operator is declared in the same module as the use, resolve to the declaration in the current module.
- Otherwise, import operator declarations from all imported modules. If more than one declaration is imported for the operator and they conflict, raise an ambiguity error. If they are equivalent, pick one arbitrarily.
This allows operator declarations within the current module to override imported declarations if desired or to disambiguate conflicting operator declarations.
I've updated the standard library and the tests. stdlib2 and some of the examples still need to be updated.
Swift SVN r4629
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
