Source/cmComputeLinkDepends.h - third_party/github.com/Kitware/CMake - Git at Google

 /* Distributed under the OSI-approved BSD 3-Clause License.  See accompanying
    file Copyright.txt or https://cmake.org/licensing for details.  */
 #pragma once

 #include "cmConfigure.h" // IWYU pragma: keep

 #include <cstddef>
 #include <map>
 #include <memory>
 #include <queue>
 #include <set>
 #include <string>
 #include <utility>
 #include <vector>

 #include "cmComputeComponentGraph.h"
 #include "cmGraphAdjacencyList.h"
 #include "cmLinkItem.h"
 #include "cmListFileCache.h"
 #include "cmTargetLinkLibraryType.h"

 class cmGeneratorTarget;
 class cmGlobalGenerator;
 class cmMakefile;
 class cmSourceFile;
 class cmake;

 /** \class cmComputeLinkDepends
  * \brief Compute link dependencies for targets.
  */
 class cmComputeLinkDepends
 {
 public:
   cmComputeLinkDepends(cmGeneratorTarget const* target,
                        const std::string& config,
                        const std::string& linkLanguage);
   ~cmComputeLinkDepends();

   cmComputeLinkDepends(const cmComputeLinkDepends&) = delete;
   cmComputeLinkDepends& operator=(const cmComputeLinkDepends&) = delete;

   // Basic information about each link item.
   struct LinkEntry
   {
     LinkEntry() = default;
     LinkEntry(BT<std::string> item, cmGeneratorTarget const* target = nullptr)
       : Item(std::move(item))
       , Target(target)
     {
     }

     static std::string const& DEFAULT;

     enum EntryKind
     {
       Library,
       Object,
       SharedDep,
       Flag,
       // The following member is for the management of items specified
       // through genex $<LINK_GROUP:...>
       Group
     };

     BT<std::string> Item;
     cmGeneratorTarget const* Target = nullptr;
     // The source file representing the external object (used when linking
     // `$<TARGET_OBJECTS>`)
     cmSourceFile const* ObjectSource = nullptr;
     EntryKind Kind = Library;
     // The following member is for the management of items specified
     // through genex $<LINK_LIBRARY:...>
     std::string Feature = std::string(DEFAULT);
   };

   using EntryVector = std::vector<LinkEntry>;
   EntryVector const& Compute();

   void SetOldLinkDirMode(bool b);
   std::set<cmGeneratorTarget const*> const& GetOldWrongConfigItems() const
   {
     return this->OldWrongConfigItems;
   }

 private:
   // Context information.
   cmGeneratorTarget const* Target;
   cmMakefile* Makefile;
   cmGlobalGenerator const* GlobalGenerator;
   cmake* CMakeInstance;
   std::string LinkLanguage;
   std::string Config;
   EntryVector FinalLinkEntries;
   std::map<std::string, std::string> LinkLibraryOverride;

   std::string const& GetCurrentFeature(
     std::string const& item, std::string const& defaultFeature) const;

   std::pair<std::map<cmLinkItem, size_t>::iterator, bool> AllocateLinkEntry(
     cmLinkItem const& item);
   std::pair<size_t, bool> AddLinkEntry(
     cmLinkItem const& item,
     size_t groupIndex = cmComputeComponentGraph::INVALID_COMPONENT);
   void AddLinkObject(cmLinkItem const& item);
   void AddVarLinkEntries(size_t depender_index, const char* value);
   void AddDirectLinkEntries();
   template <typename T>
   void AddLinkEntries(size_t depender_index, std::vector<T> const& libs);
   void AddLinkObjects(std::vector<cmLinkItem> const& objs);
   cmLinkItem ResolveLinkItem(size_t depender_index, const std::string& name);

   // One entry for each unique item.
   std::vector<LinkEntry> EntryList;
   std::map<cmLinkItem, size_t> LinkEntryIndex;

   // map storing, for each group, the list of items
   std::map<size_t, std::vector<size_t>> GroupItems;

   // BFS of initial dependencies.
   struct BFSEntry
   {
     size_t Index;
     size_t GroupIndex;
     const char* LibDepends;
   };
   std::queue<BFSEntry> BFSQueue;
   void FollowLinkEntry(BFSEntry qe);

   // Shared libraries that are included only because they are
   // dependencies of other shared libraries, not because they are part
   // of the interface.
   struct SharedDepEntry
   {
     cmLinkItem Item;
     size_t DependerIndex;
   };
   std::queue<SharedDepEntry> SharedDepQueue;
   std::set<size_t> SharedDepFollowed;
   void FollowSharedDeps(size_t depender_index, cmLinkInterface const* iface,
                         bool follow_interface = false);
   void QueueSharedDependencies(size_t depender_index,
                                std::vector<cmLinkItem> const& deps);
   void HandleSharedDependency(SharedDepEntry const& dep);

   // Dependency inferral for each link item.
   struct DependSet : public std::set<size_t>
   {
   };
   struct DependSetList : public std::vector<DependSet>
   {
     bool Initialized = false;
   };
   std::vector<DependSetList> InferredDependSets;
   void InferDependencies();

   // To finalize dependencies over groups in place of raw items
   void UpdateGroupDependencies();

   // Ordering constraint graph adjacency list.
   using NodeList = cmGraphNodeList;
   using EdgeList = cmGraphEdgeList;
   using Graph = cmGraphAdjacencyList;
   Graph EntryConstraintGraph;
   void CleanConstraintGraph();
   bool CheckCircularDependencies() const;
   void DisplayConstraintGraph();

   // Ordering algorithm.
   void OrderLinkEntries();
   std::vector<char> ComponentVisited;
   std::vector<size_t> ComponentOrder;

   struct PendingComponent
   {
     // The real component id.  Needed because the map is indexed by
     // component topological index.
     size_t Id;

     // The number of times the component needs to be seen.  This is
     // always 1 for trivial components and is initially 2 for
     // non-trivial components.
     size_t Count;

     // The entries yet to be seen to complete the component.
     std::set<size_t> Entries;
   };
   std::map<size_t, PendingComponent> PendingComponents;
   std::unique_ptr<cmComputeComponentGraph> CCG;
   std::vector<size_t> FinalLinkOrder;
   void DisplayComponents();
   void VisitComponent(size_t c);
   void VisitEntry(size_t index);
   PendingComponent& MakePendingComponent(size_t component);
   size_t ComputeComponentCount(NodeList const& nl);
   void DisplayFinalEntries();

   // Record of the original link line.
   std::vector<size_t> OriginalEntries;
   std::set<cmGeneratorTarget const*> OldWrongConfigItems;
   void CheckWrongConfigItem(cmLinkItem const& item);

   // Record of explicitly linked object files.
   std::vector<size_t> ObjectEntries;

   size_t ComponentOrderId;
   cmTargetLinkLibraryType LinkType;
   bool HasConfig;
   bool DebugMode;
   bool OldLinkDirMode;
 };
	/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
	file Copyright.txt or https://cmake.org/licensing for details. */
	#pragma once

	#include "cmConfigure.h" // IWYU pragma: keep

	#include <cstddef>
	#include <map>
	#include <memory>
	#include <queue>
	#include <set>
	#include <string>
	#include <utility>
	#include <vector>

	#include "cmComputeComponentGraph.h"
	#include "cmGraphAdjacencyList.h"
	#include "cmLinkItem.h"
	#include "cmListFileCache.h"
	#include "cmTargetLinkLibraryType.h"

	class cmGeneratorTarget;
	class cmGlobalGenerator;
	class cmMakefile;
	class cmSourceFile;
	class cmake;

	/** \class cmComputeLinkDepends
	* \brief Compute link dependencies for targets.
	*/
	class cmComputeLinkDepends
	{
	public:
	cmComputeLinkDepends(cmGeneratorTarget const* target,
	const std::string& config,
	const std::string& linkLanguage);
	~cmComputeLinkDepends();

	cmComputeLinkDepends(const cmComputeLinkDepends&) = delete;
	cmComputeLinkDepends& operator=(const cmComputeLinkDepends&) = delete;

	// Basic information about each link item.
	struct LinkEntry
	{
	LinkEntry() = default;
	LinkEntry(BT<std::string> item, cmGeneratorTarget const* target = nullptr)
	: Item(std::move(item))
	, Target(target)
	{
	}

	static std::string const& DEFAULT;

	enum EntryKind
	{
	Library,
	Object,
	SharedDep,
	Flag,
	// The following member is for the management of items specified
	// through genex $<LINK_GROUP:...>
	Group
	};

	BT<std::string> Item;
	cmGeneratorTarget const* Target = nullptr;
	// The source file representing the external object (used when linking
	// `$<TARGET_OBJECTS>`)
	cmSourceFile const* ObjectSource = nullptr;
	EntryKind Kind = Library;
	// The following member is for the management of items specified
	// through genex $<LINK_LIBRARY:...>
	std::string Feature = std::string(DEFAULT);
	};

	using EntryVector = std::vector<LinkEntry>;
	EntryVector const& Compute();

	void SetOldLinkDirMode(bool b);
	std::set<cmGeneratorTarget const*> const& GetOldWrongConfigItems() const
	{
	return this->OldWrongConfigItems;
	}

	private:
	// Context information.
	cmGeneratorTarget const* Target;
	cmMakefile* Makefile;
	cmGlobalGenerator const* GlobalGenerator;
	cmake* CMakeInstance;
	std::string LinkLanguage;
	std::string Config;
	EntryVector FinalLinkEntries;
	std::map<std::string, std::string> LinkLibraryOverride;

	std::string const& GetCurrentFeature(
	std::string const& item, std::string const& defaultFeature) const;

	std::pair<std::map<cmLinkItem, size_t>::iterator, bool> AllocateLinkEntry(
	cmLinkItem const& item);
	std::pair<size_t, bool> AddLinkEntry(
	cmLinkItem const& item,
	size_t groupIndex = cmComputeComponentGraph::INVALID_COMPONENT);
	void AddLinkObject(cmLinkItem const& item);
	void AddVarLinkEntries(size_t depender_index, const char* value);
	void AddDirectLinkEntries();
	template <typename T>
	void AddLinkEntries(size_t depender_index, std::vector<T> const& libs);
	void AddLinkObjects(std::vector<cmLinkItem> const& objs);
	cmLinkItem ResolveLinkItem(size_t depender_index, const std::string& name);

	// One entry for each unique item.
	std::vector<LinkEntry> EntryList;
	std::map<cmLinkItem, size_t> LinkEntryIndex;

	// map storing, for each group, the list of items
	std::map<size_t, std::vector<size_t>> GroupItems;

	// BFS of initial dependencies.
	struct BFSEntry
	{
	size_t Index;
	size_t GroupIndex;
	const char* LibDepends;
	};
	std::queue<BFSEntry> BFSQueue;
	void FollowLinkEntry(BFSEntry qe);

	// Shared libraries that are included only because they are
	// dependencies of other shared libraries, not because they are part
	// of the interface.
	struct SharedDepEntry
	{
	cmLinkItem Item;
	size_t DependerIndex;
	};
	std::queue<SharedDepEntry> SharedDepQueue;
	std::set<size_t> SharedDepFollowed;
	void FollowSharedDeps(size_t depender_index, cmLinkInterface const* iface,
	bool follow_interface = false);
	void QueueSharedDependencies(size_t depender_index,
	std::vector<cmLinkItem> const& deps);
	void HandleSharedDependency(SharedDepEntry const& dep);

	// Dependency inferral for each link item.
	struct DependSet : public std::set<size_t>
	{
	};
	struct DependSetList : public std::vector<DependSet>
	{
	bool Initialized = false;
	};
	std::vector<DependSetList> InferredDependSets;
	void InferDependencies();

	// To finalize dependencies over groups in place of raw items
	void UpdateGroupDependencies();

	// Ordering constraint graph adjacency list.
	using NodeList = cmGraphNodeList;
	using EdgeList = cmGraphEdgeList;
	using Graph = cmGraphAdjacencyList;
	Graph EntryConstraintGraph;
	void CleanConstraintGraph();
	bool CheckCircularDependencies() const;
	void DisplayConstraintGraph();

	// Ordering algorithm.
	void OrderLinkEntries();
	std::vector<char> ComponentVisited;
	std::vector<size_t> ComponentOrder;

	struct PendingComponent
	{
	// The real component id. Needed because the map is indexed by
	// component topological index.
	size_t Id;

	// The number of times the component needs to be seen. This is
	// always 1 for trivial components and is initially 2 for
	// non-trivial components.
	size_t Count;

	// The entries yet to be seen to complete the component.
	std::set<size_t> Entries;
	};
	std::map<size_t, PendingComponent> PendingComponents;
	std::unique_ptr<cmComputeComponentGraph> CCG;
	std::vector<size_t> FinalLinkOrder;
	void DisplayComponents();
	void VisitComponent(size_t c);
	void VisitEntry(size_t index);
	PendingComponent& MakePendingComponent(size_t component);
	size_t ComputeComponentCount(NodeList const& nl);
	void DisplayFinalEntries();

	// Record of the original link line.
	std::vector<size_t> OriginalEntries;
	std::set<cmGeneratorTarget const*> OldWrongConfigItems;
	void CheckWrongConfigItem(cmLinkItem const& item);

	// Record of explicitly linked object files.
	std::vector<size_t> ObjectEntries;

	size_t ComponentOrderId;
	cmTargetLinkLibraryType LinkType;
	bool HasConfig;
	bool DebugMode;
	bool OldLinkDirMode;
	};