include/clang/Driver/Compilation.h - third_party/swift-clang - Git at Google

 //===--- Compilation.h - Compilation Task Data Structure --------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_DRIVER_COMPILATION_H
 #define LLVM_CLANG_DRIVER_COMPILATION_H

 #include "clang/Driver/Action.h"
 #include "clang/Driver/Job.h"
 #include "clang/Driver/Util.h"
 #include "llvm/ADT/DenseMap.h"
 #include <map>

 namespace llvm {
 namespace opt {
   class DerivedArgList;
   class InputArgList;
 }
 }

 namespace clang {
 namespace driver {
   class Driver;
   class JobList;
   class ToolChain;

 /// Compilation - A set of tasks to perform for a single driver
 /// invocation.
 class Compilation {
   /// The driver we were created by.
   const Driver &TheDriver;

   /// The default tool chain.
   const ToolChain &DefaultToolChain;

   /// A mask of all the programming models the host has to support in the
   /// current compilation.
   unsigned ActiveOffloadMask;

   /// Array with the toolchains of offloading host and devices in the order they
   /// were requested by the user. We are preserving that order in case the code
   /// generation needs to derive a programming-model-specific semantic out of
   /// it.
   std::multimap<Action::OffloadKind, const ToolChain *>
       OrderedOffloadingToolchains;

   /// The original (untranslated) input argument list.
   llvm::opt::InputArgList *Args;

   /// The driver translated arguments. Note that toolchains may perform their
   /// own argument translation.
   llvm::opt::DerivedArgList *TranslatedArgs;

   /// The list of actions we've created via MakeAction.  This is not accessible
   /// to consumers; it's here just to manage ownership.
   std::vector<std::unique_ptr<Action>> AllActions;

   /// The list of actions.  This is maintained and modified by consumers, via
   /// getActions().
   ActionList Actions;

   /// The root list of jobs.
   JobList Jobs;

   /// Cache of translated arguments for a particular tool chain and bound
   /// architecture.
   llvm::DenseMap<std::pair<const ToolChain *, const char *>,
                  llvm::opt::DerivedArgList *> TCArgs;

   /// Temporary files which should be removed on exit.
   llvm::opt::ArgStringList TempFiles;

   /// Result files which should be removed on failure.
   ArgStringMap ResultFiles;

   /// Result files which are generated correctly on failure, and which should
   /// only be removed if we crash.
   ArgStringMap FailureResultFiles;

   /// Redirection for stdout, stderr, etc.
   const StringRef **Redirects;

   /// Whether we're compiling for diagnostic purposes.
   bool ForDiagnostics;

 public:
   Compilation(const Driver &D, const ToolChain &DefaultToolChain,
               llvm::opt::InputArgList *Args,
               llvm::opt::DerivedArgList *TranslatedArgs);
   ~Compilation();

   const Driver &getDriver() const { return TheDriver; }

   const ToolChain &getDefaultToolChain() const { return DefaultToolChain; }

   unsigned isOffloadingHostKind(Action::OffloadKind Kind) const {
     return ActiveOffloadMask & Kind;
   }

   /// Iterator that visits device toolchains of a given kind.
   typedef const std::multimap<Action::OffloadKind,
                               const ToolChain *>::const_iterator
       const_offload_toolchains_iterator;
   typedef std::pair<const_offload_toolchains_iterator,
                     const_offload_toolchains_iterator>
       const_offload_toolchains_range;

   template <Action::OffloadKind Kind>
   const_offload_toolchains_range getOffloadToolChains() const {
     return OrderedOffloadingToolchains.equal_range(Kind);
   }

   /// Return an offload toolchain of the provided kind. Only one is expected to
   /// exist.
   template <Action::OffloadKind Kind>
   const ToolChain *getSingleOffloadToolChain() const {
     auto TCs = getOffloadToolChains<Kind>();

     assert(TCs.first != TCs.second &&
            "No tool chains of the selected kind exist!");
     assert(std::next(TCs.first) == TCs.second &&
            "More than one tool chain of the this kind exist.");
     return TCs.first->second;
   }

   void addOffloadDeviceToolChain(const ToolChain *DeviceToolChain,
                                  Action::OffloadKind OffloadKind) {
     assert(OffloadKind != Action::OFK_Host && OffloadKind != Action::OFK_None &&
            "This is not a device tool chain!");

     // Update the host offload kind to also contain this kind.
     ActiveOffloadMask |= OffloadKind;
     OrderedOffloadingToolchains.insert(
         std::make_pair(OffloadKind, DeviceToolChain));
   }

   const llvm::opt::InputArgList &getInputArgs() const { return *Args; }

   const llvm::opt::DerivedArgList &getArgs() const { return *TranslatedArgs; }

   llvm::opt::DerivedArgList &getArgs() { return *TranslatedArgs; }

   ActionList &getActions() { return Actions; }
   const ActionList &getActions() const { return Actions; }

   /// Creates a new Action owned by this Compilation.
   ///
   /// The new Action is *not* added to the list returned by getActions().
   template <typename T, typename... Args> T *MakeAction(Args &&... Arg) {
     T *RawPtr = new T(std::forward<Args>(Arg)...);
     AllActions.push_back(std::unique_ptr<Action>(RawPtr));
     return RawPtr;
   }

   JobList &getJobs() { return Jobs; }
   const JobList &getJobs() const { return Jobs; }

   void addCommand(std::unique_ptr<Command> C) { Jobs.addJob(std::move(C)); }

   const llvm::opt::ArgStringList &getTempFiles() const { return TempFiles; }

   const ArgStringMap &getResultFiles() const { return ResultFiles; }

   const ArgStringMap &getFailureResultFiles() const {
     return FailureResultFiles;
   }

   /// Returns the sysroot path.
   StringRef getSysRoot() const;

   /// getArgsForToolChain - Return the derived argument list for the
   /// tool chain \p TC (or the default tool chain, if TC is not specified).
   ///
   /// \param BoundArch - The bound architecture name, or 0.
   const llvm::opt::DerivedArgList &getArgsForToolChain(const ToolChain *TC,
                                                        const char *BoundArch);

   /// addTempFile - Add a file to remove on exit, and returns its
   /// argument.
   const char *addTempFile(const char *Name) {
     TempFiles.push_back(Name);
     return Name;
   }

   /// addResultFile - Add a file to remove on failure, and returns its
   /// argument.
   const char *addResultFile(const char *Name, const JobAction *JA) {
     ResultFiles[JA] = Name;
     return Name;
   }

   /// addFailureResultFile - Add a file to remove if we crash, and returns its
   /// argument.
   const char *addFailureResultFile(const char *Name, const JobAction *JA) {
     FailureResultFiles[JA] = Name;
     return Name;
   }

   /// CleanupFile - Delete a given file.
   ///
   /// \param IssueErrors - Report failures as errors.
   /// \return Whether the file was removed successfully.
   bool CleanupFile(const char *File, bool IssueErrors = false) const;

   /// CleanupFileList - Remove the files in the given list.
   ///
   /// \param IssueErrors - Report failures as errors.
   /// \return Whether all files were removed successfully.
   bool CleanupFileList(const llvm::opt::ArgStringList &Files,
                        bool IssueErrors = false) const;

   /// CleanupFileMap - Remove the files in the given map.
   ///
   /// \param JA - If specified, only delete the files associated with this
   /// JobAction.  Otherwise, delete all files in the map.
   /// \param IssueErrors - Report failures as errors.
   /// \return Whether all files were removed successfully.
   bool CleanupFileMap(const ArgStringMap &Files,
                       const JobAction *JA,
                       bool IssueErrors = false) const;

   /// ExecuteCommand - Execute an actual command.
   ///
   /// \param FailingCommand - For non-zero results, this will be set to the
   /// Command which failed, if any.
   /// \return The result code of the subprocess.
   int ExecuteCommand(const Command &C, const Command *&FailingCommand) const;

   /// ExecuteJob - Execute a single job.
   ///
   /// \param FailingCommands - For non-zero results, this will be a vector of
   /// failing commands and their associated result code.
   void ExecuteJobs(
       const JobList &Jobs,
       SmallVectorImpl<std::pair<int, const Command *>> &FailingCommands) const;

   /// initCompilationForDiagnostics - Remove stale state and suppress output
   /// so compilation can be reexecuted to generate additional diagnostic
   /// information (e.g., preprocessed source(s)).
   void initCompilationForDiagnostics();

   /// Return true if we're compiling for diagnostics.
   bool isForDiagnostics() const { return ForDiagnostics; }

   /// Redirect - Redirect output of this compilation. Can only be done once.
   ///
   /// \param Redirects - array of pointers to paths. The array
   /// should have a size of three. The inferior process's
   /// stdin(0), stdout(1), and stderr(2) will be redirected to the
   /// corresponding paths. This compilation instance becomes
   /// the owner of Redirects and will delete the array and StringRef's.
   void Redirect(const StringRef** Redirects);
 };

 } // end namespace driver
 } // end namespace clang

 #endif
	//===--- Compilation.h - Compilation Task Data Structure --------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_DRIVER_COMPILATION_H
	#define LLVM_CLANG_DRIVER_COMPILATION_H

	#include "clang/Driver/Action.h"
	#include "clang/Driver/Job.h"
	#include "clang/Driver/Util.h"
	#include "llvm/ADT/DenseMap.h"
	#include <map>

	namespace llvm {
	namespace opt {
	class DerivedArgList;
	class InputArgList;
	}
	}

	namespace clang {
	namespace driver {
	class Driver;
	class JobList;
	class ToolChain;

	/// Compilation - A set of tasks to perform for a single driver
	/// invocation.
	class Compilation {
	/// The driver we were created by.
	const Driver &TheDriver;

	/// The default tool chain.
	const ToolChain &DefaultToolChain;

	/// A mask of all the programming models the host has to support in the
	/// current compilation.
	unsigned ActiveOffloadMask;

	/// Array with the toolchains of offloading host and devices in the order they
	/// were requested by the user. We are preserving that order in case the code
	/// generation needs to derive a programming-model-specific semantic out of
	/// it.
	std::multimap<Action::OffloadKind, const ToolChain *>
	OrderedOffloadingToolchains;

	/// The original (untranslated) input argument list.
	llvm::opt::InputArgList *Args;

	/// The driver translated arguments. Note that toolchains may perform their
	/// own argument translation.
	llvm::opt::DerivedArgList *TranslatedArgs;

	/// The list of actions we've created via MakeAction. This is not accessible
	/// to consumers; it's here just to manage ownership.
	std::vector<std::unique_ptr<Action>> AllActions;

	/// The list of actions. This is maintained and modified by consumers, via
	/// getActions().
	ActionList Actions;

	/// The root list of jobs.
	JobList Jobs;

	/// Cache of translated arguments for a particular tool chain and bound
	/// architecture.
	llvm::DenseMap<std::pair<const ToolChain , const char >,
	llvm::opt::DerivedArgList *> TCArgs;

	/// Temporary files which should be removed on exit.
	llvm::opt::ArgStringList TempFiles;

	/// Result files which should be removed on failure.
	ArgStringMap ResultFiles;

	/// Result files which are generated correctly on failure, and which should
	/// only be removed if we crash.
	ArgStringMap FailureResultFiles;

	/// Redirection for stdout, stderr, etc.
	const StringRef **Redirects;

	/// Whether we're compiling for diagnostic purposes.
	bool ForDiagnostics;

	public:
	Compilation(const Driver &D, const ToolChain &DefaultToolChain,
	llvm::opt::InputArgList *Args,
	llvm::opt::DerivedArgList *TranslatedArgs);
	~Compilation();

	const Driver &getDriver() const { return TheDriver; }

	const ToolChain &getDefaultToolChain() const { return DefaultToolChain; }

	unsigned isOffloadingHostKind(Action::OffloadKind Kind) const {
	return ActiveOffloadMask & Kind;
	}

	/// Iterator that visits device toolchains of a given kind.
	typedef const std::multimap<Action::OffloadKind,
	const ToolChain *>::const_iterator
	const_offload_toolchains_iterator;
	typedef std::pair<const_offload_toolchains_iterator,
	const_offload_toolchains_iterator>
	const_offload_toolchains_range;

	template <Action::OffloadKind Kind>
	const_offload_toolchains_range getOffloadToolChains() const {
	return OrderedOffloadingToolchains.equal_range(Kind);
	}

	/// Return an offload toolchain of the provided kind. Only one is expected to
	/// exist.
	template <Action::OffloadKind Kind>
	const ToolChain *getSingleOffloadToolChain() const {
	auto TCs = getOffloadToolChains<Kind>();

	assert(TCs.first != TCs.second &&
	"No tool chains of the selected kind exist!");
	assert(std::next(TCs.first) == TCs.second &&
	"More than one tool chain of the this kind exist.");
	return TCs.first->second;
	}

	void addOffloadDeviceToolChain(const ToolChain *DeviceToolChain,
	Action::OffloadKind OffloadKind) {
	assert(OffloadKind != Action::OFK_Host && OffloadKind != Action::OFK_None &&
	"This is not a device tool chain!");

	// Update the host offload kind to also contain this kind.
	ActiveOffloadMask \|= OffloadKind;
	OrderedOffloadingToolchains.insert(
	std::make_pair(OffloadKind, DeviceToolChain));
	}

	const llvm::opt::InputArgList &getInputArgs() const { return *Args; }

	const llvm::opt::DerivedArgList &getArgs() const { return *TranslatedArgs; }

	llvm::opt::DerivedArgList &getArgs() { return *TranslatedArgs; }

	ActionList &getActions() { return Actions; }
	const ActionList &getActions() const { return Actions; }

	/// Creates a new Action owned by this Compilation.
	///
	/// The new Action is not added to the list returned by getActions().
	template <typename T, typename... Args> T *MakeAction(Args &&... Arg) {
	T *RawPtr = new T(std::forward<Args>(Arg)...);
	AllActions.push_back(std::unique_ptr<Action>(RawPtr));
	return RawPtr;
	}

	JobList &getJobs() { return Jobs; }
	const JobList &getJobs() const { return Jobs; }

	void addCommand(std::unique_ptr<Command> C) { Jobs.addJob(std::move(C)); }

	const llvm::opt::ArgStringList &getTempFiles() const { return TempFiles; }

	const ArgStringMap &getResultFiles() const { return ResultFiles; }

	const ArgStringMap &getFailureResultFiles() const {
	return FailureResultFiles;
	}

	/// Returns the sysroot path.
	StringRef getSysRoot() const;

	/// getArgsForToolChain - Return the derived argument list for the
	/// tool chain \p TC (or the default tool chain, if TC is not specified).
	///
	/// \param BoundArch - The bound architecture name, or 0.
	const llvm::opt::DerivedArgList &getArgsForToolChain(const ToolChain *TC,
	const char *BoundArch);

	/// addTempFile - Add a file to remove on exit, and returns its
	/// argument.
	const char addTempFile(const char Name) {
	TempFiles.push_back(Name);
	return Name;
	}

	/// addResultFile - Add a file to remove on failure, and returns its
	/// argument.
	const char addResultFile(const char Name, const JobAction *JA) {
	ResultFiles[JA] = Name;
	return Name;
	}

	/// addFailureResultFile - Add a file to remove if we crash, and returns its
	/// argument.
	const char addFailureResultFile(const char Name, const JobAction *JA) {
	FailureResultFiles[JA] = Name;
	return Name;
	}

	/// CleanupFile - Delete a given file.
	///
	/// \param IssueErrors - Report failures as errors.
	/// \return Whether the file was removed successfully.
	bool CleanupFile(const char *File, bool IssueErrors = false) const;

	/// CleanupFileList - Remove the files in the given list.
	///
	/// \param IssueErrors - Report failures as errors.
	/// \return Whether all files were removed successfully.
	bool CleanupFileList(const llvm::opt::ArgStringList &Files,
	bool IssueErrors = false) const;

	/// CleanupFileMap - Remove the files in the given map.
	///
	/// \param JA - If specified, only delete the files associated with this
	/// JobAction. Otherwise, delete all files in the map.
	/// \param IssueErrors - Report failures as errors.
	/// \return Whether all files were removed successfully.
	bool CleanupFileMap(const ArgStringMap &Files,
	const JobAction *JA,
	bool IssueErrors = false) const;

	/// ExecuteCommand - Execute an actual command.
	///
	/// \param FailingCommand - For non-zero results, this will be set to the
	/// Command which failed, if any.
	/// \return The result code of the subprocess.
	int ExecuteCommand(const Command &C, const Command *&FailingCommand) const;

	/// ExecuteJob - Execute a single job.
	///
	/// \param FailingCommands - For non-zero results, this will be a vector of
	/// failing commands and their associated result code.
	void ExecuteJobs(
	const JobList &Jobs,
	SmallVectorImpl<std::pair<int, const Command *>> &FailingCommands) const;

	/// initCompilationForDiagnostics - Remove stale state and suppress output
	/// so compilation can be reexecuted to generate additional diagnostic
	/// information (e.g., preprocessed source(s)).
	void initCompilationForDiagnostics();

	/// Return true if we're compiling for diagnostics.
	bool isForDiagnostics() const { return ForDiagnostics; }

	/// Redirect - Redirect output of this compilation. Can only be done once.
	///
	/// \param Redirects - array of pointers to paths. The array
	/// should have a size of three. The inferior process's
	/// stdin(0), stdout(1), and stderr(2) will be redirected to the
	/// corresponding paths. This compilation instance becomes
	/// the owner of Redirects and will delete the array and StringRef's.
	void Redirect(const StringRef** Redirects);
	};

	} // end namespace driver
	} // end namespace clang

	#endif