access-control diagnostics which arise from the portion of the declarator
following the scope specifier, just in case access is granted by
friending the individual method. This can also happen with in-line
member function declarations of class templates due to templated-scope
friend declarations.
We were really playing fast-and-loose before with this sort of thing,
and it turned out to work because *most* friend functions are in file
scope. Making us delay regardless of context exposed several bugs with
how we were manipulating delay. I ended up needing a concept of a
context that's independent of the declarations in which it appears,
and then I actually had to make some things save contexts correctly,
but delay should be much cleaner now.
I also encapsulated all the delayed-diagnostics machinery in a single
subobject of Sema; this is a pattern we might want to consider rolling
out to other components of Sema.
llvm-svn: 125485
Temporarily set the first (canonical) declaration as the previous one, which is the one that
matters, and mark the real previous DeclID to be loaded & attached later on.
Fixes rdar://8956193.
llvm-svn: 125434
is unqualified but its initialized is qualified.
This is for c only and fixes the imm. problem.
c++ is more involved and is wip.
// rdar://8979379
llvm-svn: 125386
This patch contains:
- making some of the existing comments more accurate in the presence
of virtual files/directories.
- renaming some private data members of FileManager to match their roles better.
- creating 'DirectorEntry's for the parent directories of virtual
files, such that we can tell whether two virtual files are from the
same directory. This is useful for injecting virtual files whose
directories don't exist in the real file system.
- minor clean-ups and adding comments for class
FileManager::UniqueDirContainer and FileManager::UniqueFileContainer.
- adding statistics on virtual files to FileManager::PrintStats().
- adding unit tests to verify the existing and new behavior of FileManager.
llvm-svn: 125384
causing the deserialization of a large number of declarations when
writing the visible-updates record for the translation unit in C. This
takes us from:
*** AST File Statistics:
2 stat cache hits
6 stat cache misses
1/64463 source location entries read (0.001551%)
15606/16956 types read (92.038216%)
59266/89334 declarations read (66.342041%)
38952/61393 identifiers read (63.446976%)
0/7778 selectors read (0.000000%)
24192/34644 statements read (69.830276%)
388/8809 macros read (4.404586%)
2095/5189 lexical declcontexts read (40.373867%)
0/4587 visible declcontexts read (0.000000%)
0/7716 method pool entries read (0.000000%)
0 method pool misses
to
*** AST File Statistics:
2 stat cache hits
6 stat cache misses
1/64463 source location entries read (0.001551%)
26/16956 types read (0.153338%)
18/89334 declarations read (0.020149%)
145/61393 identifiers read (0.236183%)
0/7778 selectors read (0.000000%)
21/34644 statements read (0.060617%)
0/8809 macros read (0.000000%)
0/5189 lexical declcontexts read (0.000000%)
0/4587 visible declcontexts read (0.000000%)
0/7716 method pool entries read (0.000000%)
0 method pool misses
when generating a chained PCH for a header that #includes Cocoa.h
(from a PCH file) and adds one simple function declaration. The
generated PCH file is now only 9580 bytes (down from > 2MB).
llvm-svn: 125326
we would deserialize all of the macro definitions we knew about while
serializing the macro definitions at the end of the AST/PCH file. Even
though we skipped most of them (since they were unchanged), it's still
a performance problem.
Now, we do the standard AST/PCH chaining trick: watch what identifiers
are deserialized as macro names, and consider only those identifiers
(along with macro definitions that have been deserialized/written in
the source) when serializing the preprocessor state.
llvm-svn: 125324
Argyrios Kyrtzidis