Commit Graph

7 Commits

Author SHA1 Message Date
Richard Smith 7bf8f6fa8a PR42104: Support instantiations of lambdas that implicitly capture
packs.

Two changes:
 * Track odr-use via FunctionParmPackExprs to properly handle dependent
   odr-uses of packs in generic lambdas.
 * Do not instantiate implicit captures; instead, regenerate them by
   instantiating the body of the lambda. This is necessary to
   distinguish between cases where only one element of a pack is
   captured and cases where the entire pack is captured.

This reinstates r362358 (reverted in r362375) with a fix for an
uninitialized variable use in UpdateMarkingForLValueToRValue.

llvm-svn: 362531
2019-06-04 17:17:20 +00:00
Simon Pilgrim c716e5d6de Revert rL362358 : PR42104: Support instantiations of lambdas that implicitly capture packs.
Two changes:
 * Track odr-use via FunctionParmPackExprs to properly handle dependent
   odr-uses of packs in generic lambdas.
 * Do not instantiate implicit captures; instead, regenerate them by
   instantiating the body of the lambda. This is necessary to
   distinguish between cases where only one element of a pack is
   captured and cases where the entire pack is captured.
........
Fixes http://lab.llvm.org:8011/builders/llvm-clang-x86_64-expensive-checks-win buildbot failures

llvm-svn: 362375
2019-06-03 09:56:09 +00:00
Richard Smith ea0c66be55 PR42104: Support instantiations of lambdas that implicitly capture
packs.

Two changes:
 * Track odr-use via FunctionParmPackExprs to properly handle dependent
   odr-uses of packs in generic lambdas.
 * Do not instantiate implicit captures; instead, regenerate them by
   instantiating the body of the lambda. This is necessary to
   distinguish between cases where only one element of a pack is
   captured and cases where the entire pack is captured.

llvm-svn: 362358
2019-06-03 06:02:10 +00:00
Faisal Vali f60ebcda68 Fix the second half of PR34266: Don't implicitly capture '*this' if the members are found in a class unrelated to the enclosing class.
https://bugs.llvm.org/show_bug.cgi?id=34266

For e.g.
  struct A {
     void f(int);
     static void f(char);
  };
  struct B {
    auto foo() {
      return [&] (auto a) {
         A::f(a); // this should not cause a capture of '*this'
      };
    }
  };

The patch does the following:
1) It moves the check to attempt an implicit capture of '*this' by reference into the more logical location of when the call is actually built within ActOnCallExpr (as opposed to when the unresolved-member-lookup node is created).
  - Reminder: A capture of '*this' by value has to always be an explicit capture.

2) It additionally checks whether the naming class of the UnresolvedMemberExpr ('A' in the example above) is related to the enclosing class ('B' above).

P.S. If you have access to ISO-C++'s CWG reflector, see this thread for some potentially related discussion: http://lists.isocpp.org/core/2017/08/2851.php

llvm-svn: 313487
2017-09-17 15:37:51 +00:00
Richard Smith b301806c4b PR33318: Add missing full-expression checking to static_assert expression.
This fixes missing lambda-captures for variables referenced only inside a
static_assert (!), among other things.

llvm-svn: 304760
2017-06-06 01:34:24 +00:00
Faisal Vali 47d9ed4e20 Fix 'this' capturing Generic lambdas used within default initializers (PR19876)
http://llvm.org/bugs/show_bug.cgi?id=19876

The following C++1y code results in a crash:

struct X {
  int m = 10;
  int n = [this](auto) { return m; }(20);
};

When implicitly instantiating the generic lambda's call operator specialization body, Sema is unable to determine the current 'this' type when transforming the MemberExpr 'm' - since it looks for the nearest enclosing FunctionDeclDC - which is obviously null.

I considered two ways to fix this:

    1) In InstantiateFunctionDefinition, when the context is saved after the lambda scope info is created, retain the 'this' pointer.
    2) Teach getCurrentThisType() to recognize it is within a generic lambda within an NSDMI/default-initializer and return the appropriate this type.

I chose to implement #2 (though I confess I do not have a compelling reason for choosing it over #1).

Richard Smith accepted the patch:
http://reviews.llvm.org/D3935

Thank you!

llvm-svn: 209874
2014-05-30 04:39:37 +00:00
Faisal Vali a17d19fb41 This patch implements capturing of variables within generic lambdas.
Both Richard and I felt that the current wording in the working paper needed some tweaking - Please see http://llvm-reviews.chandlerc.com/D2035 for additional context and references to core-reflector messages that discuss wording tweaks.

What is implemented is what we had intended to specify in Bristol; but, recently felt that the specification might benefit from some tweaking and fleshing.  

As a rough attempt to explain the semantics: If a nested lambda with a default-capture names a variable within its body, and if the enclosing full expression that contains the name of that variable is instantiation-dependent - then an enclosing lambda that is capture-ready (i.e. within a non-dependent context) must capture that variable, if all intervening nested lambdas can potentially capture that variable if they need to, and all intervening parent lambdas of the capture-ready lambda can and do capture the variable.      

Of note, 'this' capturing is also currently underspecified in the working paper for generic lambdas.  What is implemented here is if the set of candidate functions in a nested generic lambda includes both static and non-static member functions (regardless of viability checking - i.e. num and type of parameters/arguments) - and if all intervening nested-inner lambdas between the capture-ready lambda and the function-call containing nested lambda can capture 'this' and if all enclosing lambdas of the capture-ready lambda can capture 'this', then 'this' is speculatively captured by that capture-ready lambda.

Hopefully a paper for the C++ committee (that Richard and I had started some preliminary work on) is forthcoming. 

This essentially makes generic lambdas feature complete, except for known bugs. The more prominent ones (and the ones I am currently aware of) being:
  - generic lambdas and init-captures are broken - but a patch that fixes this is already in the works ...
  - nested variadic expansions such as:
    auto K = [](auto ... OuterArgs) {
      vp([=](auto ... Is) {
          decltype(OuterArgs) OA = OuterArgs;
          return 0;
        }(5)...);
      return 0;
    };
    auto M = K('a', ' ', 1, " -- ", 3.14); 
   currently cause crashes.  I think I know how to fix this (since I had done so in my initial implementation) - but it will probably take some work and back & forth with Doug and Richard.

A warm thanks to all who provided feedback - and especially to Doug Gregor and Richard Smith for their pivotal guidance: their insight and prestidigitation in such matters is boundless!

Now let's hope this commit doesn't upset the buildbot gods ;)

Thanks!

llvm-svn: 194188
2013-11-07 05:17:06 +00:00