xref: /freebsd/contrib/llvm-project/clang/include/clang/Driver/Action.h (revision 06c3fb2749bda94cb5201f81ffdb8fa6c3161b2e)
1 //===- Action.h - Abstract compilation steps --------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #ifndef LLVM_CLANG_DRIVER_ACTION_H
10 #define LLVM_CLANG_DRIVER_ACTION_H
11 
12 #include "clang/Basic/LLVM.h"
13 #include "clang/Driver/Types.h"
14 #include "clang/Driver/Util.h"
15 #include "llvm/ADT/ArrayRef.h"
16 #include "llvm/ADT/STLExtras.h"
17 #include "llvm/ADT/SmallVector.h"
18 #include "llvm/ADT/StringRef.h"
19 #include "llvm/ADT/iterator_range.h"
20 #include <string>
21 
22 namespace llvm {
23 namespace opt {
24 
25 class Arg;
26 
27 } // namespace opt
28 } // namespace llvm
29 
30 namespace clang {
31 namespace driver {
32 
33 class ToolChain;
34 
35 /// Action - Represent an abstract compilation step to perform.
36 ///
37 /// An action represents an edge in the compilation graph; typically
38 /// it is a job to transform an input using some tool.
39 ///
40 /// The current driver is hard wired to expect actions which produce a
41 /// single primary output, at least in terms of controlling the
42 /// compilation. Actions can produce auxiliary files, but can only
43 /// produce a single output to feed into subsequent actions.
44 ///
45 /// Actions are usually owned by a Compilation, which creates new
46 /// actions via MakeAction().
47 class Action {
48 public:
49   using size_type = ActionList::size_type;
50   using input_iterator = ActionList::iterator;
51   using input_const_iterator = ActionList::const_iterator;
52   using input_range = llvm::iterator_range<input_iterator>;
53   using input_const_range = llvm::iterator_range<input_const_iterator>;
54 
55   enum ActionClass {
56     InputClass = 0,
57     BindArchClass,
58     OffloadClass,
59     PreprocessJobClass,
60     PrecompileJobClass,
61     ExtractAPIJobClass,
62     AnalyzeJobClass,
63     MigrateJobClass,
64     CompileJobClass,
65     BackendJobClass,
66     AssembleJobClass,
67     LinkJobClass,
68     IfsMergeJobClass,
69     LipoJobClass,
70     DsymutilJobClass,
71     VerifyDebugInfoJobClass,
72     VerifyPCHJobClass,
73     OffloadBundlingJobClass,
74     OffloadUnbundlingJobClass,
75     OffloadPackagerJobClass,
76     LinkerWrapperJobClass,
77     StaticLibJobClass,
78     BinaryAnalyzeJobClass,
79 
80     JobClassFirst = PreprocessJobClass,
81     JobClassLast = BinaryAnalyzeJobClass
82   };
83 
84   // The offloading kind determines if this action is binded to a particular
85   // programming model. Each entry reserves one bit. We also have a special kind
86   // to designate the host offloading tool chain.
87   enum OffloadKind {
88     OFK_None = 0x00,
89 
90     // The host offloading tool chain.
91     OFK_Host = 0x01,
92 
93     // The device offloading tool chains - one bit for each programming model.
94     OFK_Cuda = 0x02,
95     OFK_OpenMP = 0x04,
96     OFK_HIP = 0x08,
97   };
98 
99   static const char *getClassName(ActionClass AC);
100 
101 private:
102   ActionClass Kind;
103 
104   /// The output type of this action.
105   types::ID Type;
106 
107   ActionList Inputs;
108 
109   /// Flag that is set to true if this action can be collapsed with others
110   /// actions that depend on it. This is true by default and set to false when
111   /// the action is used by two different tool chains, which is enabled by the
112   /// offloading support implementation.
113   bool CanBeCollapsedWithNextDependentAction = true;
114 
115 protected:
116   ///
117   /// Offload information.
118   ///
119 
120   /// The host offloading kind - a combination of kinds encoded in a mask.
121   /// Multiple programming models may be supported simultaneously by the same
122   /// host.
123   unsigned ActiveOffloadKindMask = 0u;
124 
125   /// Offloading kind of the device.
126   OffloadKind OffloadingDeviceKind = OFK_None;
127 
128   /// The Offloading architecture associated with this action.
129   const char *OffloadingArch = nullptr;
130 
131   /// The Offloading toolchain associated with this device action.
132   const ToolChain *OffloadingToolChain = nullptr;
133 
Action(ActionClass Kind,types::ID Type)134   Action(ActionClass Kind, types::ID Type) : Action(Kind, ActionList(), Type) {}
Action(ActionClass Kind,Action * Input,types::ID Type)135   Action(ActionClass Kind, Action *Input, types::ID Type)
136       : Action(Kind, ActionList({Input}), Type) {}
Action(ActionClass Kind,Action * Input)137   Action(ActionClass Kind, Action *Input)
138       : Action(Kind, ActionList({Input}), Input->getType()) {}
Action(ActionClass Kind,const ActionList & Inputs,types::ID Type)139   Action(ActionClass Kind, const ActionList &Inputs, types::ID Type)
140       : Kind(Kind), Type(Type), Inputs(Inputs) {}
141 
142 public:
143   virtual ~Action();
144 
getClassName()145   const char *getClassName() const { return Action::getClassName(getKind()); }
146 
getKind()147   ActionClass getKind() const { return Kind; }
getType()148   types::ID getType() const { return Type; }
149 
getInputs()150   ActionList &getInputs() { return Inputs; }
getInputs()151   const ActionList &getInputs() const { return Inputs; }
152 
size()153   size_type size() const { return Inputs.size(); }
154 
input_begin()155   input_iterator input_begin() { return Inputs.begin(); }
input_end()156   input_iterator input_end() { return Inputs.end(); }
inputs()157   input_range inputs() { return input_range(input_begin(), input_end()); }
input_begin()158   input_const_iterator input_begin() const { return Inputs.begin(); }
input_end()159   input_const_iterator input_end() const { return Inputs.end(); }
inputs()160   input_const_range inputs() const {
161     return input_const_range(input_begin(), input_end());
162   }
163 
164   /// Mark this action as not legal to collapse.
setCannotBeCollapsedWithNextDependentAction()165   void setCannotBeCollapsedWithNextDependentAction() {
166     CanBeCollapsedWithNextDependentAction = false;
167   }
168 
169   /// Return true if this function can be collapsed with others.
isCollapsingWithNextDependentActionLegal()170   bool isCollapsingWithNextDependentActionLegal() const {
171     return CanBeCollapsedWithNextDependentAction;
172   }
173 
174   /// Return a string containing the offload kind of the action.
175   std::string getOffloadingKindPrefix() const;
176 
177   /// Return a string that can be used as prefix in order to generate unique
178   /// files for each offloading kind. By default, no prefix is used for
179   /// non-device kinds, except if \a CreatePrefixForHost is set.
180   static std::string
181   GetOffloadingFileNamePrefix(OffloadKind Kind,
182                               StringRef NormalizedTriple,
183                               bool CreatePrefixForHost = false);
184 
185   /// Return a string containing a offload kind name.
186   static StringRef GetOffloadKindName(OffloadKind Kind);
187 
188   /// Set the device offload info of this action and propagate it to its
189   /// dependences.
190   void propagateDeviceOffloadInfo(OffloadKind OKind, const char *OArch,
191                                   const ToolChain *OToolChain);
192 
193   /// Append the host offload info of this action and propagate it to its
194   /// dependences.
195   void propagateHostOffloadInfo(unsigned OKinds, const char *OArch);
196 
setHostOffloadInfo(unsigned OKinds,const char * OArch)197   void setHostOffloadInfo(unsigned OKinds, const char *OArch) {
198     ActiveOffloadKindMask |= OKinds;
199     OffloadingArch = OArch;
200   }
201 
202   /// Set the offload info of this action to be the same as the provided action,
203   /// and propagate it to its dependences.
204   void propagateOffloadInfo(const Action *A);
205 
getOffloadingHostActiveKinds()206   unsigned getOffloadingHostActiveKinds() const {
207     return ActiveOffloadKindMask;
208   }
209 
getOffloadingDeviceKind()210   OffloadKind getOffloadingDeviceKind() const { return OffloadingDeviceKind; }
getOffloadingArch()211   const char *getOffloadingArch() const { return OffloadingArch; }
getOffloadingToolChain()212   const ToolChain *getOffloadingToolChain() const {
213     return OffloadingToolChain;
214   }
215 
216   /// Check if this action have any offload kinds. Note that host offload kinds
217   /// are only set if the action is a dependence to a host offload action.
isHostOffloading(unsigned int OKind)218   bool isHostOffloading(unsigned int OKind) const {
219     return ActiveOffloadKindMask & OKind;
220   }
isDeviceOffloading(OffloadKind OKind)221   bool isDeviceOffloading(OffloadKind OKind) const {
222     return OffloadingDeviceKind == OKind;
223   }
isOffloading(OffloadKind OKind)224   bool isOffloading(OffloadKind OKind) const {
225     return isHostOffloading(OKind) || isDeviceOffloading(OKind);
226   }
227 };
228 
229 class InputAction : public Action {
230   const llvm::opt::Arg &Input;
231   std::string Id;
232   virtual void anchor();
233 
234 public:
235   InputAction(const llvm::opt::Arg &Input, types::ID Type,
236               StringRef Id = StringRef());
237 
getInputArg()238   const llvm::opt::Arg &getInputArg() const { return Input; }
239 
setId(StringRef _Id)240   void setId(StringRef _Id) { Id = _Id.str(); }
getId()241   StringRef getId() const { return Id; }
242 
classof(const Action * A)243   static bool classof(const Action *A) {
244     return A->getKind() == InputClass;
245   }
246 };
247 
248 class BindArchAction : public Action {
249   virtual void anchor();
250 
251   /// The architecture to bind, or 0 if the default architecture
252   /// should be bound.
253   StringRef ArchName;
254 
255 public:
256   BindArchAction(Action *Input, StringRef ArchName);
257 
getArchName()258   StringRef getArchName() const { return ArchName; }
259 
classof(const Action * A)260   static bool classof(const Action *A) {
261     return A->getKind() == BindArchClass;
262   }
263 };
264 
265 /// An offload action combines host or/and device actions according to the
266 /// programming model implementation needs and propagates the offloading kind to
267 /// its dependences.
268 class OffloadAction final : public Action {
269   virtual void anchor();
270 
271 public:
272   /// Type used to communicate device actions. It associates bound architecture,
273   /// toolchain, and offload kind to each action.
274   class DeviceDependences final {
275   public:
276     using ToolChainList = SmallVector<const ToolChain *, 3>;
277     using BoundArchList = SmallVector<const char *, 3>;
278     using OffloadKindList = SmallVector<OffloadKind, 3>;
279 
280   private:
281     // Lists that keep the information for each dependency. All the lists are
282     // meant to be updated in sync. We are adopting separate lists instead of a
283     // list of structs, because that simplifies forwarding the actions list to
284     // initialize the inputs of the base Action class.
285 
286     /// The dependence actions.
287     ActionList DeviceActions;
288 
289     /// The offloading toolchains that should be used with the action.
290     ToolChainList DeviceToolChains;
291 
292     /// The architectures that should be used with this action.
293     BoundArchList DeviceBoundArchs;
294 
295     /// The offload kind of each dependence.
296     OffloadKindList DeviceOffloadKinds;
297 
298   public:
299     /// Add an action along with the associated toolchain, bound arch, and
300     /// offload kind.
301     void add(Action &A, const ToolChain &TC, const char *BoundArch,
302              OffloadKind OKind);
303 
304     /// Add an action along with the associated toolchain, bound arch, and
305     /// offload kinds.
306     void add(Action &A, const ToolChain &TC, const char *BoundArch,
307              unsigned OffloadKindMask);
308 
309     /// Get each of the individual arrays.
getActions()310     const ActionList &getActions() const { return DeviceActions; }
getToolChains()311     const ToolChainList &getToolChains() const { return DeviceToolChains; }
getBoundArchs()312     const BoundArchList &getBoundArchs() const { return DeviceBoundArchs; }
getOffloadKinds()313     const OffloadKindList &getOffloadKinds() const {
314       return DeviceOffloadKinds;
315     }
316   };
317 
318   /// Type used to communicate host actions. It associates bound architecture,
319   /// toolchain, and offload kinds to the host action.
320   class HostDependence final {
321     /// The dependence action.
322     Action &HostAction;
323 
324     /// The offloading toolchain that should be used with the action.
325     const ToolChain &HostToolChain;
326 
327     /// The architectures that should be used with this action.
328     const char *HostBoundArch = nullptr;
329 
330     /// The offload kind of each dependence.
331     unsigned HostOffloadKinds = 0u;
332 
333   public:
HostDependence(Action & A,const ToolChain & TC,const char * BoundArch,const unsigned OffloadKinds)334     HostDependence(Action &A, const ToolChain &TC, const char *BoundArch,
335                    const unsigned OffloadKinds)
336         : HostAction(A), HostToolChain(TC), HostBoundArch(BoundArch),
337           HostOffloadKinds(OffloadKinds) {}
338 
339     /// Constructor version that obtains the offload kinds from the device
340     /// dependencies.
341     HostDependence(Action &A, const ToolChain &TC, const char *BoundArch,
342                    const DeviceDependences &DDeps);
getAction()343     Action *getAction() const { return &HostAction; }
getToolChain()344     const ToolChain *getToolChain() const { return &HostToolChain; }
getBoundArch()345     const char *getBoundArch() const { return HostBoundArch; }
getOffloadKinds()346     unsigned getOffloadKinds() const { return HostOffloadKinds; }
347   };
348 
349   using OffloadActionWorkTy =
350       llvm::function_ref<void(Action *, const ToolChain *, const char *)>;
351 
352 private:
353   /// The host offloading toolchain that should be used with the action.
354   const ToolChain *HostTC = nullptr;
355 
356   /// The tool chains associated with the list of actions.
357   DeviceDependences::ToolChainList DevToolChains;
358 
359 public:
360   OffloadAction(const HostDependence &HDep);
361   OffloadAction(const DeviceDependences &DDeps, types::ID Ty);
362   OffloadAction(const HostDependence &HDep, const DeviceDependences &DDeps);
363 
364   /// Execute the work specified in \a Work on the host dependence.
365   void doOnHostDependence(const OffloadActionWorkTy &Work) const;
366 
367   /// Execute the work specified in \a Work on each device dependence.
368   void doOnEachDeviceDependence(const OffloadActionWorkTy &Work) const;
369 
370   /// Execute the work specified in \a Work on each dependence.
371   void doOnEachDependence(const OffloadActionWorkTy &Work) const;
372 
373   /// Execute the work specified in \a Work on each host or device dependence if
374   /// \a IsHostDependenceto is true or false, respectively.
375   void doOnEachDependence(bool IsHostDependence,
376                           const OffloadActionWorkTy &Work) const;
377 
378   /// Return true if the action has a host dependence.
379   bool hasHostDependence() const;
380 
381   /// Return the host dependence of this action. This function is only expected
382   /// to be called if the host dependence exists.
383   Action *getHostDependence() const;
384 
385   /// Return true if the action has a single device dependence. If \a
386   /// DoNotConsiderHostActions is set, ignore the host dependence, if any, while
387   /// accounting for the number of dependences.
388   bool hasSingleDeviceDependence(bool DoNotConsiderHostActions = false) const;
389 
390   /// Return the single device dependence of this action. This function is only
391   /// expected to be called if a single device dependence exists. If \a
392   /// DoNotConsiderHostActions is set, a host dependence is allowed.
393   Action *
394   getSingleDeviceDependence(bool DoNotConsiderHostActions = false) const;
395 
classof(const Action * A)396   static bool classof(const Action *A) { return A->getKind() == OffloadClass; }
397 };
398 
399 class JobAction : public Action {
400   virtual void anchor();
401 
402 protected:
403   JobAction(ActionClass Kind, Action *Input, types::ID Type);
404   JobAction(ActionClass Kind, const ActionList &Inputs, types::ID Type);
405 
406 public:
classof(const Action * A)407   static bool classof(const Action *A) {
408     return (A->getKind() >= JobClassFirst &&
409             A->getKind() <= JobClassLast);
410   }
411 };
412 
413 class PreprocessJobAction : public JobAction {
414   void anchor() override;
415 
416 public:
417   PreprocessJobAction(Action *Input, types::ID OutputType);
418 
classof(const Action * A)419   static bool classof(const Action *A) {
420     return A->getKind() == PreprocessJobClass;
421   }
422 };
423 
424 class PrecompileJobAction : public JobAction {
425   void anchor() override;
426 
427 protected:
428   PrecompileJobAction(ActionClass Kind, Action *Input, types::ID OutputType);
429 
430 public:
431   PrecompileJobAction(Action *Input, types::ID OutputType);
432 
classof(const Action * A)433   static bool classof(const Action *A) {
434     return A->getKind() == PrecompileJobClass;
435   }
436 };
437 
438 class ExtractAPIJobAction : public JobAction {
439   void anchor() override;
440 
441 public:
442   ExtractAPIJobAction(Action *Input, types::ID OutputType);
443 
classof(const Action * A)444   static bool classof(const Action *A) {
445     return A->getKind() == ExtractAPIJobClass;
446   }
447 
addHeaderInput(Action * Input)448   void addHeaderInput(Action *Input) { getInputs().push_back(Input); }
449 };
450 
451 class AnalyzeJobAction : public JobAction {
452   void anchor() override;
453 
454 public:
455   AnalyzeJobAction(Action *Input, types::ID OutputType);
456 
classof(const Action * A)457   static bool classof(const Action *A) {
458     return A->getKind() == AnalyzeJobClass;
459   }
460 };
461 
462 class MigrateJobAction : public JobAction {
463   void anchor() override;
464 
465 public:
466   MigrateJobAction(Action *Input, types::ID OutputType);
467 
classof(const Action * A)468   static bool classof(const Action *A) {
469     return A->getKind() == MigrateJobClass;
470   }
471 };
472 
473 class CompileJobAction : public JobAction {
474   void anchor() override;
475 
476 public:
477   CompileJobAction(Action *Input, types::ID OutputType);
478 
classof(const Action * A)479   static bool classof(const Action *A) {
480     return A->getKind() == CompileJobClass;
481   }
482 };
483 
484 class BackendJobAction : public JobAction {
485   void anchor() override;
486 
487 public:
488   BackendJobAction(Action *Input, types::ID OutputType);
489 
classof(const Action * A)490   static bool classof(const Action *A) {
491     return A->getKind() == BackendJobClass;
492   }
493 };
494 
495 class AssembleJobAction : public JobAction {
496   void anchor() override;
497 
498 public:
499   AssembleJobAction(Action *Input, types::ID OutputType);
500 
classof(const Action * A)501   static bool classof(const Action *A) {
502     return A->getKind() == AssembleJobClass;
503   }
504 };
505 
506 class IfsMergeJobAction : public JobAction {
507   void anchor() override;
508 
509 public:
510   IfsMergeJobAction(ActionList &Inputs, types::ID Type);
511 
classof(const Action * A)512   static bool classof(const Action *A) {
513     return A->getKind() == IfsMergeJobClass;
514   }
515 };
516 
517 class LinkJobAction : public JobAction {
518   void anchor() override;
519 
520 public:
521   LinkJobAction(ActionList &Inputs, types::ID Type);
522 
classof(const Action * A)523   static bool classof(const Action *A) {
524     return A->getKind() == LinkJobClass;
525   }
526 };
527 
528 class LipoJobAction : public JobAction {
529   void anchor() override;
530 
531 public:
532   LipoJobAction(ActionList &Inputs, types::ID Type);
533 
classof(const Action * A)534   static bool classof(const Action *A) {
535     return A->getKind() == LipoJobClass;
536   }
537 };
538 
539 class DsymutilJobAction : public JobAction {
540   void anchor() override;
541 
542 public:
543   DsymutilJobAction(ActionList &Inputs, types::ID Type);
544 
classof(const Action * A)545   static bool classof(const Action *A) {
546     return A->getKind() == DsymutilJobClass;
547   }
548 };
549 
550 class VerifyJobAction : public JobAction {
551   void anchor() override;
552 
553 public:
554   VerifyJobAction(ActionClass Kind, Action *Input, types::ID Type);
555 
classof(const Action * A)556   static bool classof(const Action *A) {
557     return A->getKind() == VerifyDebugInfoJobClass ||
558            A->getKind() == VerifyPCHJobClass;
559   }
560 };
561 
562 class VerifyDebugInfoJobAction : public VerifyJobAction {
563   void anchor() override;
564 
565 public:
566   VerifyDebugInfoJobAction(Action *Input, types::ID Type);
567 
classof(const Action * A)568   static bool classof(const Action *A) {
569     return A->getKind() == VerifyDebugInfoJobClass;
570   }
571 };
572 
573 class VerifyPCHJobAction : public VerifyJobAction {
574   void anchor() override;
575 
576 public:
577   VerifyPCHJobAction(Action *Input, types::ID Type);
578 
classof(const Action * A)579   static bool classof(const Action *A) {
580     return A->getKind() == VerifyPCHJobClass;
581   }
582 };
583 
584 class OffloadBundlingJobAction : public JobAction {
585   void anchor() override;
586 
587 public:
588   // Offloading bundling doesn't change the type of output.
589   OffloadBundlingJobAction(ActionList &Inputs);
590 
classof(const Action * A)591   static bool classof(const Action *A) {
592     return A->getKind() == OffloadBundlingJobClass;
593   }
594 };
595 
596 class OffloadUnbundlingJobAction final : public JobAction {
597   void anchor() override;
598 
599 public:
600   /// Type that provides information about the actions that depend on this
601   /// unbundling action.
602   struct DependentActionInfo final {
603     /// The tool chain of the dependent action.
604     const ToolChain *DependentToolChain = nullptr;
605 
606     /// The bound architecture of the dependent action.
607     StringRef DependentBoundArch;
608 
609     /// The offload kind of the dependent action.
610     const OffloadKind DependentOffloadKind = OFK_None;
611 
DependentActionInfofinal612     DependentActionInfo(const ToolChain *DependentToolChain,
613                         StringRef DependentBoundArch,
614                         const OffloadKind DependentOffloadKind)
615         : DependentToolChain(DependentToolChain),
616           DependentBoundArch(DependentBoundArch),
617           DependentOffloadKind(DependentOffloadKind) {}
618   };
619 
620 private:
621   /// Container that keeps information about each dependence of this unbundling
622   /// action.
623   SmallVector<DependentActionInfo, 6> DependentActionInfoArray;
624 
625 public:
626   // Offloading unbundling doesn't change the type of output.
627   OffloadUnbundlingJobAction(Action *Input);
628 
629   /// Register information about a dependent action.
registerDependentActionInfo(const ToolChain * TC,StringRef BoundArch,OffloadKind Kind)630   void registerDependentActionInfo(const ToolChain *TC, StringRef BoundArch,
631                                    OffloadKind Kind) {
632     DependentActionInfoArray.push_back({TC, BoundArch, Kind});
633   }
634 
635   /// Return the information about all depending actions.
getDependentActionsInfo()636   ArrayRef<DependentActionInfo> getDependentActionsInfo() const {
637     return DependentActionInfoArray;
638   }
639 
classof(const Action * A)640   static bool classof(const Action *A) {
641     return A->getKind() == OffloadUnbundlingJobClass;
642   }
643 };
644 
645 class OffloadPackagerJobAction : public JobAction {
646   void anchor() override;
647 
648 public:
649   OffloadPackagerJobAction(ActionList &Inputs, types::ID Type);
650 
classof(const Action * A)651   static bool classof(const Action *A) {
652     return A->getKind() == OffloadPackagerJobClass;
653   }
654 };
655 
656 class LinkerWrapperJobAction : public JobAction {
657   void anchor() override;
658 
659 public:
660   LinkerWrapperJobAction(ActionList &Inputs, types::ID Type);
661 
classof(const Action * A)662   static bool classof(const Action *A) {
663     return A->getKind() == LinkerWrapperJobClass;
664   }
665 };
666 
667 class StaticLibJobAction : public JobAction {
668   void anchor() override;
669 
670 public:
671   StaticLibJobAction(ActionList &Inputs, types::ID Type);
672 
classof(const Action * A)673   static bool classof(const Action *A) {
674     return A->getKind() == StaticLibJobClass;
675   }
676 };
677 
678 class BinaryAnalyzeJobAction : public JobAction {
679   void anchor() override;
680 
681 public:
682   BinaryAnalyzeJobAction(Action *Input, types::ID Type);
683 
classof(const Action * A)684   static bool classof(const Action *A) {
685     return A->getKind() == BinaryAnalyzeJobClass;
686   }
687 };
688 
689 } // namespace driver
690 } // namespace clang
691 
692 #endif // LLVM_CLANG_DRIVER_ACTION_H
693