Commit Graph

18 Commits

Author SHA1 Message Date
Sebastian Redl 1a99f441e6 Fix a crash bug when comparing overload quality of conversion operators with conversion constructors.
Remove an atrocious amount of trailing whitespace in the overloaded operator mangler. Sorry, couldn't help myself.
Change the DeclType parameter of Sema::CheckReferenceInit to be passed by value instead of reference. It wasn't changed anywhere.
Let the parser handle C++'s irregular grammar around assignment-expression and conditional-expression.
And finally, the reason for all this stuff: implement C++ semantics for the conditional operator. The implementation is complete except for determining lvalueness.

llvm-svn: 69299
2009-04-16 17:51:27 +00:00
Sebastian Redl 4c0cd856b1 Reintroduce r67870 (rval ref overloading), since I can't reproduce any test failures on i386 or x86_64. If this fails for someone, please contact me.
llvm-svn: 67999
2009-03-29 15:27:50 +00:00
Anders Carlsson 72f307a26e Revert Sebastian's rvalue patch (r67870) since it caused test failures in
SemaCXX//overload-member-call.cpp
SemaCXX//overloaded-operator.cpp
SemaTemplate//instantiate-method.cpp

llvm-svn: 67912
2009-03-28 04:17:27 +00:00
Sebastian Redl ec74096050 Better overload resolution for rvalue references.
llvm-svn: 67870
2009-03-27 21:36:42 +00:00
Douglas Gregor 78ca74d81d Introduce _Complex conversions into the function overloading
system. Since C99 doesn't have overloading and C++ doesn't have
_Complex, there is no specification for    this. Here's what I think
makes sense.

Complex conversions come in several flavors:

  - Complex promotions:  a complex -> complex   conversion where the
    underlying real-type conversion is a floating-point promotion. GCC
    seems to call this a promotion, EDG does something else. This is
    given "promotion" rank for determining the best viable function.
  - Complex conversions: a complex -> complex conversion that is
    not a complex promotion. This is given "conversion" rank for
    determining the best viable   function.
  - Complex-real conversions: a real -> complex or complex -> real
    conversion. This is given "conversion" rank for determining the
    best viable function.

These rules are the same for C99 (when using the "overloadable"
attribute) and C++. However, there is one difference in the handling
of floating-point promotions: in C99, float -> long double and double
-> long double are considered promotions (so we give them "promotion" 
rank), while C++ considers these conversions ("conversion" rank).

llvm-svn: 64343
2009-02-12 00:15:05 +00:00
Douglas Gregor 4e5cbdcbed Initial implementation of function overloading in C.
This commit adds a new attribute, "overloadable", that enables C++
function overloading in C. The attribute can only be added to function
declarations, e.g.,

  int *f(int) __attribute__((overloadable));

If the "overloadable" attribute exists on a function with a given
name, *all* functions with that name (and in that scope) must have the
"overloadable" attribute. Sets of overloaded functions with the
"overloadable" attribute then follow the normal C++ rules for
overloaded functions, e.g., overloads must have different
parameter-type-lists from each other.

When calling an overloaded function in C, we follow the same
overloading rules as C++, with three extensions to the set of standard
conversions:

  - A value of a given struct or union type T can be converted to the
    type T. This is just the identity conversion. (In C++, this would
    go through a copy constructor).
  - A value of pointer type T* can be converted to a value of type U*
    if T and U are compatible types. This conversion has Conversion
    rank (it's considered a pointer conversion in C).
  - A value of type T can be converted to a value of type U if T and U
    are compatible (and are not both pointer types). This conversion
    has Conversion rank (it's considered to be a new kind of
    conversion unique to C, a "compatible" conversion).

Known defects (and, therefore, next steps):
  1) The standard-conversion handling does not understand conversions
  involving _Complex or vector extensions, so it is likely to get
  these wrong. We need to add these conversions.
  2) All overloadable functions with the same name will have the same
  linkage name, which means we'll get a collision in the linker (if
  not sooner). We'll need to mangle the names of these functions.

llvm-svn: 64336
2009-02-11 23:02:49 +00:00
Douglas Gregor 97fd6e24c4 Add support for calls to overloaded member functions. Things to note:
- Overloading has to cope with having both static and non-static
    member functions in the overload set.
  - The call may or may not have an implicit object argument,
    depending on the syntax (x.f() vs. f()) and the context (static
    vs. non-static member function).
  - We now generate MemberExprs for implicit member access expression.
  - We now cope with mutable whenever we're building MemberExprs.

llvm-svn: 61329
2008-12-22 05:46:06 +00:00
Douglas Gregor 47d3f2742a Allow downcasts of pointers to Objective-C interfaces, with a
warning. This matches GCC's behavior and addresses
<rdar://problem/6458293>.

llvm-svn: 61246
2008-12-19 17:40:08 +00:00
Douglas Gregor ab7897ac44 Implement the rest of C++ [over.call.object], which permits the object
being called to be converted to a reference-to-function,
pointer-to-function, or reference-to-pointer-to-function. This is done
through "surrogate" candidate functions that model the conversions
from the object to the function (reference/pointer) and the
conversions in the arguments.

llvm-svn: 59674
2008-11-19 22:57:39 +00:00
Douglas Gregor a11693bc37 Implement support for operator overloading using candidate operator
functions for built-in operators, e.g., the builtin

  bool operator==(int const*, int const*)

can be used for the expression "x1 == x2" given:

  struct X {
    operator int const*();
  } x1, x2;

The scheme for handling these built-in operators is relatively simple:
for each candidate required by the standard, create a special kind of
candidate function for the built-in. If overload resolution picks the
built-in operator, we perform the appropriate conversions on the
arguments and then let the normal built-in operator take care of it. 

There may be some optimization opportunity left: if we can reduce the
number of built-in operator overloads we generate, overload resolution
for these cases will go faster. However, one must be careful when
doing this: GCC generates too few operator overloads in our little
test program, and fails to compile it because none of the overloads it
generates match.

Note that we only support operator overload for non-member binary
operators at the moment. The other operators will follow.

As part of this change, ImplicitCastExpr can now be an lvalue.

llvm-svn: 59148
2008-11-12 17:17:38 +00:00
Douglas Gregor a1f013e8ed Initial, partially-baked support for implicit user-defined conversions by conversion functions
llvm-svn: 58870
2008-11-07 22:36:19 +00:00
Douglas Gregor 2fe9883a96 Standard conversion sequences now have a CopyConstructor field, to
cope with the case where a user-defined conversion is actually a copy
construction, and therefore can be compared against other standard
conversion sequences. While I called this a hack before, now I'm
convinced that it's the right way to go.

Compare overloads based on derived-to-base conversions that invoke
copy constructors. 

Suppress user-defined conversions when attempting to call a
user-defined conversion.

llvm-svn: 58629
2008-11-03 19:09:14 +00:00
Douglas Gregor 26bee0b326 Implement basic support for converting constructors in user-defined
conversions.

Notes:
  - Overload resolution for converting constructors need to prohibit
    user-defined conversions (hence, the test isn't -verify safe yet).
  - We still use hacks for conversions from a class type to itself. 
    This will be the case until we start implicitly declaring the appropriate
    special member functions. (That's next on my list)

llvm-svn: 58513
2008-10-31 16:23:19 +00:00
Douglas Gregor ef30a5ff98 Implement overloading rules for reference binding
llvm-svn: 58381
2008-10-29 14:50:44 +00:00
Douglas Gregor 786ab2119f Tweak Sema::CheckReferenceInit so that it (optionally) computes an
ImplicitConversionSequence and, when doing so, following the specific
rules of [over.best.ics]. 

The computation of the implicit conversion sequences implements C++
[over.ics.ref], but we do not (yet) have ranking for implicit
conversion sequences that use reference binding.

llvm-svn: 58357
2008-10-29 02:00:59 +00:00
Douglas Gregor 5c407d9a9b Add support for conversions from a pointer-to-derived to a
pointer-to-base. Also, add overload ranking for pointer conversions
(for both pointer-to-void and derived-to-base pointer conversions).

Note that we do not yet diagnose derived-to-base pointer conversion
errors that stem from ambiguous or inacessible base classes. These
aren't handled during overload resolution; rather, when the conversion
is actually used we go ahead and diagnose the error.

llvm-svn: 58017
2008-10-23 00:40:37 +00:00
Douglas Gregor e1eb9d8cc4 Implement ranking of standard conversion sequences by their qualification
conversions (e.g., comparing int* -> const int* against 
int* -> const volatile int*); see C++ 13.3.3.2p3 bullet 3.

Add Sema::UnwrapSimilarPointerTypes to simplify the control flow of
IsQualificationConversion and CompareQualificationConversion (and fix
the handling of the int* -> volatile int* conversion in the former).
 

llvm-svn: 57978
2008-10-22 14:17:15 +00:00
Douglas Gregor 5251f1b283 Preliminary support for function overloading
llvm-svn: 57909
2008-10-21 16:13:35 +00:00