llvm-project.git/lldb/source/Symbol/CompilerDeclContext.cpp, branch main Unnamed repository; edit this file 'description' to name the repository. [lldb] Make only one function that needs to be implemented when searching for types (#74786) 2023-12-13T00:51:49+00:00 Greg Clayton gclayton@fb.com 2023-12-13T00:51:49+00:00 dd9587795811ba21e6ca6ad52b4531e17e6babd6 This patch revives the effort to get this Phabricator patch into upstream: https://reviews.llvm.org/D137900 This patch was accepted before in Phabricator but I found some -gsimple-template-names issues that are fixed in this patch. A fixed up version of the description from the original patch starts now. This patch started off trying to fix Module::FindFirstType() as it sometimes didn't work. The issue was the SymbolFile plug-ins didn't do any filtering of the matching types they produced, and they only looked up types using the type basename. This means if you have two types with the same basename, your type lookup can fail when only looking up a single type. We would ask the Module::FindFirstType to lookup "Foo::Bar" and it would ask the symbol file to find only 1 type matching the basename "Bar", and then we would filter out any matches that didn't match "Foo::Bar". So if the SymbolFile found "Foo::Bar" first, then it would work, but if it found "Baz::Bar" first, it would return only that type and it would be filtered out. Discovering this issue lead me to think of the patch Alex Langford did a few months ago that was done for finding functions, where he allowed SymbolFile objects to make sure something fully matched before parsing the debug information into an AST type and other LLDB types. So this patch aimed to allow type lookups to also be much more efficient. As LLDB has been developed over the years, we added more ways to to type lookups. These functions have lots of arguments. This patch aims to make one API that needs to be implemented that serves all previous lookups: - Find a single type - Find all types - Find types in a namespace This patch introduces a `TypeQuery` class that contains all of the state needed to perform the lookup which is powerful enough to perform all of the type searches that used to be in our API. It contain a vector of CompilerContext objects that can fully or partially specify the lookup that needs to take place. If you just want to lookup all types with a matching basename, regardless of the containing context, you can specify just a single CompilerContext entry that has a name and a CompilerContextKind mask of CompilerContextKind::AnyType. Or you can fully specify the exact context to use when doing lookups like: CompilerContextKind::Namespace "std" CompilerContextKind::Class "foo" CompilerContextKind::Typedef "size_type" This change expands on the clang modules code that already used a vector<CompilerContext> items, but it modifies it to work with expression type lookups which have contexts, or user lookups where users query for types. The clang modules type lookup is still an option that can be enabled on the `TypeQuery` objects. This mirrors the most recent addition of type lookups that took a vector<CompilerContext> that allowed lookups to happen for the expression parser in certain places. Prior to this we had the following APIs in Module: ``` void Module::FindTypes(ConstString type_name, bool exact_match, size_t max_matches, llvm::DenseSet<lldb_private::SymbolFile *> &searched_symbol_files, TypeList &types); void Module::FindTypes(llvm::ArrayRef<CompilerContext> pattern, LanguageSet languages, llvm::DenseSet<lldb_private::SymbolFile *> &searched_symbol_files, TypeMap &types); void Module::FindTypesInNamespace(ConstString type_name, const CompilerDeclContext &parent_decl_ctx, size_t max_matches, TypeList &type_list); ``` The new Module API is much simpler. It gets rid of all three above functions and replaces them with: ``` void FindTypes(const TypeQuery &query, TypeResults &results); ``` The `TypeQuery` class contains all of the needed settings: - The vector<CompilerContext> that allow efficient lookups in the symbol file classes since they can look at basename matches only realize fully matching types. Before this any basename that matched was fully realized only to be removed later by code outside of the SymbolFile layer which could cause many types to be realized when they didn't need to. - If the lookup is exact or not. If not exact, then the compiler context must match the bottom most items that match the compiler context, otherwise it must match exactly - If the compiler context match is for clang modules or not. Clang modules matches include a Module compiler context kind that allows types to be matched only from certain modules and these matches are not needed when d oing user type lookups. - An optional list of languages to use to limit the search to only certain languages The `TypeResults` object contains all state required to do the lookup and store the results: - The max number of matches - The set of SymbolFile objects that have already been searched - The matching type list for any matches that are found The benefits of this approach are: - Simpler API, and only one API to implement in SymbolFile classes - Replaces the FindTypesInNamespace that used a CompilerDeclContext as a way to limit the search, but this only worked if the TypeSystem matched the current symbol file's type system, so you couldn't use it to lookup a type in another module - Fixes a serious bug in our FindFirstType functions where if we were searching for "foo::bar", and we found a "baz::bar" first, the basename would match and we would only fetch 1 type using the basename, only to drop it from the matching list and returning no results 
This patch revives the effort to get this Phabricator patch into
upstream:

https://reviews.llvm.org/D137900

This patch was accepted before in Phabricator but I found some
-gsimple-template-names issues that are fixed in this patch.

A fixed up version of the description from the original patch starts
now.

This patch started off trying to fix Module::FindFirstType() as it
sometimes didn't work. The issue was the SymbolFile plug-ins didn't do
any filtering of the matching types they produced, and they only looked
up types using the type basename. This means if you have two types with
the same basename, your type lookup can fail when only looking up a
single type. We would ask the Module::FindFirstType to lookup "Foo::Bar"
and it would ask the symbol file to find only 1 type matching the
basename "Bar", and then we would filter out any matches that didn't
match "Foo::Bar". So if the SymbolFile found "Foo::Bar" first, then it
would work, but if it found "Baz::Bar" first, it would return only that
type and it would be filtered out.

Discovering this issue lead me to think of the patch Alex Langford did a
few months ago that was done for finding functions, where he allowed
SymbolFile objects to make sure something fully matched before parsing
the debug information into an AST type and other LLDB types. So this
patch aimed to allow type lookups to also be much more efficient.

As LLDB has been developed over the years, we added more ways to to type
lookups. These functions have lots of arguments. This patch aims to make
one API that needs to be implemented that serves all previous lookups:

- Find a single type
- Find all types
- Find types in a namespace

This patch introduces a `TypeQuery` class that contains all of the state
needed to perform the lookup which is powerful enough to perform all of
the type searches that used to be in our API. It contain a vector of
CompilerContext objects that can fully or partially specify the lookup
that needs to take place.

If you just want to lookup all types with a matching basename,
regardless of the containing context, you can specify just a single
CompilerContext entry that has a name and a CompilerContextKind mask of
CompilerContextKind::AnyType.

Or you can fully specify the exact context to use when doing lookups
like: CompilerContextKind::Namespace "std"
CompilerContextKind::Class "foo"
CompilerContextKind::Typedef "size_type"

This change expands on the clang modules code that already used a
vector<CompilerContext> items, but it modifies it to work with
expression type lookups which have contexts, or user lookups where users
query for types. The clang modules type lookup is still an option that
can be enabled on the `TypeQuery` objects.

This mirrors the most recent addition of type lookups that took a
vector<CompilerContext> that allowed lookups to happen for the
expression parser in certain places.

Prior to this we had the following APIs in Module:

```
void
Module::FindTypes(ConstString type_name, bool exact_match, size_t max_matches,
                  llvm::DenseSet<lldb_private::SymbolFile *> &searched_symbol_files,
                  TypeList &types);

void
Module::FindTypes(llvm::ArrayRef<CompilerContext> pattern, LanguageSet languages,
                  llvm::DenseSet<lldb_private::SymbolFile *> &searched_symbol_files,
                  TypeMap &types);

void Module::FindTypesInNamespace(ConstString type_name,
                                  const CompilerDeclContext &parent_decl_ctx,
                                  size_t max_matches, TypeList &type_list);
```

The new Module API is much simpler. It gets rid of all three above
functions and replaces them with:

```
void FindTypes(const TypeQuery &query, TypeResults &results);
```
The `TypeQuery` class contains all of the needed settings:

- The vector<CompilerContext> that allow efficient lookups in the symbol
file classes since they can look at basename matches only realize fully
matching types. Before this any basename that matched was fully realized
only to be removed later by code outside of the SymbolFile layer which
could cause many types to be realized when they didn't need to.
- If the lookup is exact or not. If not exact, then the compiler context
must match the bottom most items that match the compiler context,
otherwise it must match exactly
- If the compiler context match is for clang modules or not. Clang
modules matches include a Module compiler context kind that allows types
to be matched only from certain modules and these matches are not needed
when d oing user type lookups.
- An optional list of languages to use to limit the search to only
certain languages

The `TypeResults` object contains all state required to do the lookup
and store the results:
- The max number of matches
- The set of SymbolFile objects that have already been searched
- The matching type list for any matches that are found

The benefits of this approach are:
- Simpler API, and only one API to implement in SymbolFile classes
- Replaces the FindTypesInNamespace that used a CompilerDeclContext as a
way to limit the search, but this only worked if the TypeSystem matched
the current symbol file's type system, so you couldn't use it to lookup
a type in another module
- Fixes a serious bug in our FindFirstType functions where if we were
searching for "foo::bar", and we found a "baz::bar" first, the basename
would match and we would only fetch 1 type using the basename, only to
drop it from the matching list and returning no results
 [lldb] Refactor deduction of the instance variable's name (NFC) 2023-03-21T22:22:07+00:00 Dave Lee davelee.com@gmail.com 2023-03-17T02:19:05+00:00 c327f9925428870e6288fa65bb709dcc3c0a0f31 Move responsibility of providing the instance variable name (`this`, `self`) from `TypeSystem` to `Language`. `Language` the natural place for this, but also has downstream benefits. Some languages have multiple `TypeSystem` implementations (ex Swift), and by placing this logic in the `Language`, redundancy is avoided. This change relies on the tests from D145348 and D146320. Differential Revision: https://reviews.llvm.org/D146548 
Move responsibility of providing the instance variable name (`this`, `self`) from
`TypeSystem` to `Language`.

`Language` the natural place for this, but also has downstream benefits. Some languages
have multiple `TypeSystem` implementations (ex Swift), and by placing this logic in the
`Language`, redundancy is avoided.

This change relies on the tests from D145348 and D146320.

Differential Revision: https://reviews.llvm.org/D146548
[lldb] Let 'v' command directly access ivars of _any_ self/this 2023-03-08T19:19:43+00:00 Dave Lee davelee.com@gmail.com 2023-03-03T19:15:55+00:00 6c599b1e9b7e1b57952565468aed2de16af21082 The `v` (`frame variable`) command can directly access ivars/fields of `this` or `self`. Such as `v field`, instead of `v this->field`. This change relaxes the criteria for finding `this`/`self` variables. There are cases where a `this`/`self` variable does exist, but up to now the `v` command has not made use of it. The user would have to explicitly run `v this->field` or `self->_ivar` to access ivars. This change allows such cases to also work (without explicitly dereferencing `this`/`self`). A very common example in Objective-C (and Swift) is weakly capturing `self`: ``` __weak Type *weakSelf = self; void (^block)(void) = ^{ Type *self = weakSelf; // Re-establish strong reference. // `v _ivar` should work just as well as `v self->_ivar`. }; ``` In this case, `self` exists but `v` would not have used it. With this change, the fact that a variable named `self` exists is enough for it to be used. Differential Revision: https://reviews.llvm.org/D145276 
The `v` (`frame variable`) command can directly access ivars/fields of `this` or `self`.
Such as `v field`, instead of `v this->field`. This change relaxes the criteria for
finding `this`/`self` variables.

There are cases where a `this`/`self` variable does exist, but up to now the `v` command
has not made use of it. The user would have to explicitly run `v this->field` or
`self->_ivar` to access ivars. This change allows such cases to also work (without
explicitly dereferencing `this`/`self`).

A very common example in Objective-C (and Swift) is weakly capturing `self`:

```
__weak Type *weakSelf = self;
void (^block)(void) = ^{
   Type *self = weakSelf; // Re-establish strong reference.
   // `v _ivar` should work just as well as `v self->_ivar`.
};
```

In this case, `self` exists but `v` would not have used it. With this change, the fact
that a variable named `self` exists is enough for it to be used.

Differential Revision: https://reviews.llvm.org/D145276
[lldb] Remove unused portion of GetFunctionMethodInfo signature (NFC) 2023-03-05T03:35:57+00:00 Dave Lee davelee.com@gmail.com 2023-03-05T01:14:50+00:00 77d2f263c0f3d9c2e7064c6317d41e18aff14289 This applies to IsClassMethod as well. 
This applies to IsClassMethod as well.
[lldb][NFC] Fix all formatting errors in .cpp file headers 2020-01-24T07:52:55+00:00 Raphael Isemann teemperor@gmail.com 2020-01-24T07:23:27+00:00 808142876c10b52e7ee57cdc6dcf0acc5c97c1b7 Summary: A *.cpp file header in LLDB (and in LLDB) should like this: ``` //===-- TestUtilities.cpp -------------------------------------------------===// ``` However in LLDB most of our source files have arbitrary changes to this format and these changes are spreading through LLDB as folks usually just use the existing source files as templates for their new files (most notably the unnecessary editor language indicator `-*- C++ -*-` is spreading and in every review someone is pointing out that this is wrong, resulting in people pointing out that this is done in the same way in other files). This patch removes most of these inconsistencies including the editor language indicators, all the different missing/additional '-' characters, files that center the file name, missing trailing `===//` (mostly caused by clang-format breaking the line). Reviewers: aprantl, espindola, jfb, shafik, JDevlieghere Reviewed By: JDevlieghere Subscribers: dexonsmith, wuzish, emaste, sdardis, nemanjai, kbarton, MaskRay, atanasyan, arphaman, jfb, abidh, jsji, JDevlieghere, usaxena95, lldb-commits Tags: #lldb Differential Revision: https://reviews.llvm.org/D73258 
Summary:
A *.cpp file header in LLDB (and in LLDB) should like this:
```
//===-- TestUtilities.cpp -------------------------------------------------===//
```
However in LLDB most of our source files have arbitrary changes to this format and
these changes are spreading through LLDB as folks usually just use the existing
source files as templates for their new files (most notably the unnecessary
editor language indicator `-*- C++ -*-` is spreading and in every review
someone is pointing out that this is wrong, resulting in people pointing out that this
is done in the same way in other files).

This patch removes most of these inconsistencies including the editor language indicators,
all the different missing/additional '-' characters, files that center the file name, missing
trailing `===//` (mostly caused by clang-format breaking the line).

Reviewers: aprantl, espindola, jfb, shafik, JDevlieghere

Reviewed By: JDevlieghere

Subscribers: dexonsmith, wuzish, emaste, sdardis, nemanjai, kbarton, MaskRay, atanasyan, arphaman, jfb, abidh, jsji, JDevlieghere, usaxena95, lldb-commits

Tags: #lldb

Differential Revision: https://reviews.llvm.org/D73258
[lldb][NFC] Delete all 'else return ...' in CompilerDeclContext.cpp 2019-12-23T10:49:35+00:00 Raphael Isemann teemperor@gmail.com 2019-12-23T10:49:25+00:00 76d294cb8744b8b15a72d5adb2d435d2265ea9d7 






[lldb] Remove unused CompilerDeclContext::IsStructUnionOrClass
2019-12-22T13:01:37+00:00

Raphael Isemann
teemperor@gmail.com

2019-12-22T13:00:26+00:00

218601ada1496f920fadddae9a21f7d6ccf48da5












[lldb][NFC] Remove CompilerDeclContext::IsClang
2019-11-28T14:54:11+00:00

Raphael Isemann
teemperor@gmail.com

2019-11-28T14:43:26+00:00

c2dd84e396d091ca61b06b59c622b444ffc17234

This method is only used in ClangASTContext.

Also removes the includes we only needed for the ClangASTContext RTTI check
in the CompilerDecl[Context].cpp files.





This method is only used in ClangASTContext.

Also removes the includes we only needed for the ClangASTContext RTTI check
in the CompilerDecl[Context].cpp files.







[lldb][NFC] Move TypeSystem RTTI to static variable to remove swift reference
2019-11-27T09:28:02+00:00

Raphael Isemann
teemperor@gmail.com

2019-11-27T09:27:25+00:00

92d5ea5d1674c38e03d130c6b04afa118e94ef4a












Correctly look up declarations in inline namespaces
2019-03-12T07:45:04+00:00

Raphael Isemann
teemperor@gmail.com

2019-03-12T07:45:04+00:00

a946997c2482e4386549ee38b4bb154eb58efbb6

Summary:
This patch marks the inline namespaces from DWARF as inline and also ensures that looking
up declarations now follows the lookup rules for inline namespaces.

Reviewers: aprantl, shafik, serge-sans-paille

Reviewed By: aprantl

Subscribers: eraman, jdoerfert, lldb-commits

Tags: #c_modules_in_lldb, #lldb

Differential Revision: https://reviews.llvm.org/D59198

llvm-svn: 355897





Summary:
This patch marks the inline namespaces from DWARF as inline and also ensures that looking
up declarations now follows the lookup rules for inline namespaces.

Reviewers: aprantl, shafik, serge-sans-paille

Reviewed By: aprantl

Subscribers: eraman, jdoerfert, lldb-commits

Tags: #c_modules_in_lldb, #lldb

Differential Revision: https://reviews.llvm.org/D59198

llvm-svn: 355897