src/third_party/llvm-project/clang-tools-extra/clang-tidy-vs/ClangTidy/CheckTree.cs - cobalt - Git at Google

 using System;
 using System.Collections.Generic;
 using System.ComponentModel;
 using System.Linq;
 using System.Text;

 namespace LLVM.ClangTidy
 {
     /// <summary>
     /// CheckTree is used to group checks into categories and subcategories.  For
     /// example, given the following list of checks:
     ///
     ///   llvm-include-order
     ///   llvm-namespace-comment
     ///   llvm-twine-local
     ///   llvm-header-guard
     ///   google-runtime-member-string-references
     ///   google-runtime-int
     ///   google-readability-namespace-comments
     ///
     /// the corresponding CheckTree would look like this:
     ///
     ///   llvm
     ///     include-order
     ///     namespace-comment
     ///     twine-local
     ///     header-guard
     ///   google
     ///     runtime
     ///       member-string-references
     ///       int
     ///     readability
     ///       namespace-comments
     ///       redundant-smartptr-get
     ///
     /// This is useful when serializing a set of options out to a .clang-tidy file,
     /// because we need to decide the most efficient way to serialize the sequence
     /// of check commands, when to use wildcards, etc.  For example, if everything
     /// under google is inherited, we can simply leave that entry out entirely from
     /// the .clang-tidy file.  On the other hand, if anything is inherited, we *must
     /// not* add or remove google-* by wildcard because that, by definition, means
     /// the property is no longer inherited.  When we can categorize the checks into
     /// groups and subgroups like this, it is possible to efficiently serialize to
     /// a minimal representative .clang-tidy file.
     /// </summary>

     public abstract class CheckTreeNode
     {
         private string Name_;
         private CheckTreeNode Parent_;

         protected CheckTreeNode(string Name, CheckTreeNode Parent)
         {
             Name_ = Name;
             Parent_ = Parent;
         }

         public string Path
         {
             get
             {
                 if (Parent_ == null)
                     return null;
                 string ParentPath = Parent_.Path;
                 if (ParentPath == null)
                     return Name_;
                 return ParentPath + "-" + Name_;
             }
         }

         public string Name
         {
             get
             {
                 return Name_;
             }
         }


         public abstract int CountChecks { get; }
         public abstract int CountExplicitlyDisabledChecks { get; }
         public abstract int CountExplicitlyEnabledChecks { get; }
         public abstract int CountInheritedChecks { get; }
     }

     public class CheckTree : CheckTreeNode
     {
         private Dictionary<string, CheckTreeNode> Children_ = new Dictionary<string, CheckTreeNode>();
         public CheckTree()
             : base(null, null)
         {

         }

         private CheckTree(string Name, CheckTree Parent)
             : base(Name, Parent)
         {
         }

         private void AddLeaf(string Name, DynamicPropertyDescriptor<bool> Property)
         {
             Children_[Name] = new CheckLeaf(Name, this, Property);
         }

         private CheckTree AddOrCreateSubgroup(string Name)
         {
             CheckTreeNode Subgroup = null;
             if (Children_.TryGetValue(Name, out Subgroup))
             {
                 System.Diagnostics.Debug.Assert(Subgroup is CheckTree);
                 return (CheckTree)Subgroup;
             }

             CheckTree SG = new CheckTree(Name, this);
             Children_[Name] = SG;
             return SG;
         }

         public static CheckTree Build(ClangTidyProperties Config)
         {
             // Since some check names contain dashes in them, it doesn't make sense to
             // simply split all check names by dash and construct a huge tree.  For
             // example, in the check called google-runtime-member-string-references,
             // we don't need each of those to be a different subgroup.  So instead we
             // explicitly specify the common breaking points at which a user might want
             // to use a -* and everything else falls as a leaf under one of these
             // categories.
             // FIXME: This should be configurable without recompilation
             CheckTree Root = new CheckTree();
             string[][] Groups = new string[][] {
                 new string[] {"boost"},
                 new string[] {"cert"},
                 new string[] {"clang", "diagnostic"},
                 new string[] {"cppcoreguidelines", "interfaces"},
                 new string[] {"cppcoreguidelines", "pro", "bounds"},
                 new string[] {"cppcoreguidelines", "pro", "type"},
                 new string[] {"google", "build"},
                 new string[] {"google", "readability"},
                 new string[] {"google", "runtime"},
                 new string[] {"llvm"},
                 new string[] {"misc"},
             };

             foreach (string[] Group in Groups)
             {
                 CheckTree Subgroup = Root;
                 foreach (string Component in Group)
                     Subgroup = Subgroup.AddOrCreateSubgroup(Component);
             }

             var Props = Config.GetProperties()
                               .Cast<PropertyDescriptor>()
                               .OfType<DynamicPropertyDescriptor<bool>>()
                               .Where(x => x.Attributes.OfType<ClangTidyCheckAttribute>().Count() > 0)
                               .Select(x => new KeyValuePair<DynamicPropertyDescriptor<bool>, string>(
                                             x, x.Attributes.OfType<ClangTidyCheckAttribute>().First().CheckName));
             var PropArray = Props.ToArray();
             foreach (var CheckInfo in PropArray)
             {
                 string LeafName = null;
                 CheckTree Tree = Root.LocateCheckLeafGroup(CheckInfo.Value, out LeafName);
                 Tree.AddLeaf(LeafName, CheckInfo.Key);
             }
             return Root;
         }

         private CheckTree LocateCheckLeafGroup(string Check, out string LeafName)
         {
             string[] Components = Check.Split('-');
             string FirstComponent = Components.FirstOrDefault();
             if (FirstComponent == null)
             {
                 LeafName = Check;
                 return this;
             }

             CheckTreeNode Subgroup = null;
             if (!Children_.TryGetValue(FirstComponent, out Subgroup))
             {
                 LeafName = Check;
                 return this;
             }
             System.Diagnostics.Debug.Assert(Subgroup is CheckTree);
             CheckTree Child = (CheckTree)Subgroup;
             string ChildName = Check.Substring(FirstComponent.Length + 1);
             return Child.LocateCheckLeafGroup(ChildName, out LeafName);
         }

         public override int CountChecks
         {
             get
             {
                 return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountChecks; });
             }
         }

         public override int CountExplicitlyDisabledChecks
         {
             get
             {
                 return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountExplicitlyDisabledChecks; });
             }
         }

         public override int CountExplicitlyEnabledChecks
         {
             get
             {
                 return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountExplicitlyEnabledChecks; });
             }
         }
         public override int CountInheritedChecks
         {
             get
             {
                 return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountInheritedChecks; });
             }
         }

         public IDictionary<string, CheckTreeNode> Children
         {
             get { return Children_; }
         }
     }

     public class CheckLeaf : CheckTreeNode
     {
         private DynamicPropertyDescriptor<bool> Property_;

         public CheckLeaf(string Name, CheckTree Parent, DynamicPropertyDescriptor<bool> Property)
             : base(Name, Parent)
         {
             Property_ = Property;
         }

         public override int CountChecks
         {
             get
             {
                 return 1;
             }
         }

         public override int CountExplicitlyDisabledChecks
         {
             get
             {
                 if (Property_.IsInheriting)
                     return 0;
                 return (bool)Property_.GetValue(null) ? 0 : 1;
             }
         }

         public override int CountExplicitlyEnabledChecks
         {
             get
             {
                 if (Property_.IsInheriting)
                     return 0;
                 return (bool)Property_.GetValue(null) ? 1 : 0;
             }
         }

         public override int CountInheritedChecks
         {
             get
             {
                 return (Property_.IsInheriting) ? 1 : 0;
             }
         }

     }
 }
	using System;
	using System.Collections.Generic;
	using System.ComponentModel;
	using System.Linq;
	using System.Text;

	namespace LLVM.ClangTidy
	{
	/// <summary>
	/// CheckTree is used to group checks into categories and subcategories. For
	/// example, given the following list of checks:
	///
	/// llvm-include-order
	/// llvm-namespace-comment
	/// llvm-twine-local
	/// llvm-header-guard
	/// google-runtime-member-string-references
	/// google-runtime-int
	/// google-readability-namespace-comments
	///
	/// the corresponding CheckTree would look like this:
	///
	/// llvm
	/// include-order
	/// namespace-comment
	/// twine-local
	/// header-guard
	/// google
	/// runtime
	/// member-string-references
	/// int
	/// readability
	/// namespace-comments
	/// redundant-smartptr-get
	///
	/// This is useful when serializing a set of options out to a .clang-tidy file,
	/// because we need to decide the most efficient way to serialize the sequence
	/// of check commands, when to use wildcards, etc. For example, if everything
	/// under google is inherited, we can simply leave that entry out entirely from
	/// the .clang-tidy file. On the other hand, if anything is inherited, we *must
	/// not* add or remove google-* by wildcard because that, by definition, means
	/// the property is no longer inherited. When we can categorize the checks into
	/// groups and subgroups like this, it is possible to efficiently serialize to
	/// a minimal representative .clang-tidy file.
	/// </summary>

	public abstract class CheckTreeNode
	{
	private string Name_;
	private CheckTreeNode Parent_;

	protected CheckTreeNode(string Name, CheckTreeNode Parent)
	{
	Name_ = Name;
	Parent_ = Parent;
	}

	public string Path
	{
	get
	{
	if (Parent_ == null)
	return null;
	string ParentPath = Parent_.Path;
	if (ParentPath == null)
	return Name_;
	return ParentPath + "-" + Name_;
	}
	}

	public string Name
	{
	get
	{
	return Name_;
	}
	}


	public abstract int CountChecks { get; }
	public abstract int CountExplicitlyDisabledChecks { get; }
	public abstract int CountExplicitlyEnabledChecks { get; }
	public abstract int CountInheritedChecks { get; }
	}

	public class CheckTree : CheckTreeNode
	{
	private Dictionary<string, CheckTreeNode> Children_ = new Dictionary<string, CheckTreeNode>();
	public CheckTree()
	: base(null, null)
	{

	}

	private CheckTree(string Name, CheckTree Parent)
	: base(Name, Parent)
	{
	}

	private void AddLeaf(string Name, DynamicPropertyDescriptor<bool> Property)
	{
	Children_[Name] = new CheckLeaf(Name, this, Property);
	}

	private CheckTree AddOrCreateSubgroup(string Name)
	{
	CheckTreeNode Subgroup = null;
	if (Children_.TryGetValue(Name, out Subgroup))
	{
	System.Diagnostics.Debug.Assert(Subgroup is CheckTree);
	return (CheckTree)Subgroup;
	}

	CheckTree SG = new CheckTree(Name, this);
	Children_[Name] = SG;
	return SG;
	}

	public static CheckTree Build(ClangTidyProperties Config)
	{
	// Since some check names contain dashes in them, it doesn't make sense to
	// simply split all check names by dash and construct a huge tree. For
	// example, in the check called google-runtime-member-string-references,
	// we don't need each of those to be a different subgroup. So instead we
	// explicitly specify the common breaking points at which a user might want
	// to use a -* and everything else falls as a leaf under one of these
	// categories.
	// FIXME: This should be configurable without recompilation
	CheckTree Root = new CheckTree();
	string[][] Groups = new string[][] {
	new string[] {"boost"},
	new string[] {"cert"},
	new string[] {"clang", "diagnostic"},
	new string[] {"cppcoreguidelines", "interfaces"},
	new string[] {"cppcoreguidelines", "pro", "bounds"},
	new string[] {"cppcoreguidelines", "pro", "type"},
	new string[] {"google", "build"},
	new string[] {"google", "readability"},
	new string[] {"google", "runtime"},
	new string[] {"llvm"},
	new string[] {"misc"},
	};

	foreach (string[] Group in Groups)
	{
	CheckTree Subgroup = Root;
	foreach (string Component in Group)
	Subgroup = Subgroup.AddOrCreateSubgroup(Component);
	}

	var Props = Config.GetProperties()
	.Cast<PropertyDescriptor>()
	.OfType<DynamicPropertyDescriptor<bool>>()
	.Where(x => x.Attributes.OfType<ClangTidyCheckAttribute>().Count() > 0)
	.Select(x => new KeyValuePair<DynamicPropertyDescriptor<bool>, string>(
	x, x.Attributes.OfType<ClangTidyCheckAttribute>().First().CheckName));
	var PropArray = Props.ToArray();
	foreach (var CheckInfo in PropArray)
	{
	string LeafName = null;
	CheckTree Tree = Root.LocateCheckLeafGroup(CheckInfo.Value, out LeafName);
	Tree.AddLeaf(LeafName, CheckInfo.Key);
	}
	return Root;
	}

	private CheckTree LocateCheckLeafGroup(string Check, out string LeafName)
	{
	string[] Components = Check.Split('-');
	string FirstComponent = Components.FirstOrDefault();
	if (FirstComponent == null)
	{
	LeafName = Check;
	return this;
	}

	CheckTreeNode Subgroup = null;
	if (!Children_.TryGetValue(FirstComponent, out Subgroup))
	{
	LeafName = Check;
	return this;
	}
	System.Diagnostics.Debug.Assert(Subgroup is CheckTree);
	CheckTree Child = (CheckTree)Subgroup;
	string ChildName = Check.Substring(FirstComponent.Length + 1);
	return Child.LocateCheckLeafGroup(ChildName, out LeafName);
	}

	public override int CountChecks
	{
	get
	{
	return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountChecks; });
	}
	}

	public override int CountExplicitlyDisabledChecks
	{
	get
	{
	return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountExplicitlyDisabledChecks; });
	}
	}

	public override int CountExplicitlyEnabledChecks
	{
	get
	{
	return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountExplicitlyEnabledChecks; });
	}
	}
	public override int CountInheritedChecks
	{
	get
	{
	return Children_.Aggregate(0, (X, V) => { return X + V.Value.CountInheritedChecks; });
	}
	}

	public IDictionary<string, CheckTreeNode> Children
	{
	get { return Children_; }
	}
	}

	public class CheckLeaf : CheckTreeNode
	{
	private DynamicPropertyDescriptor<bool> Property_;

	public CheckLeaf(string Name, CheckTree Parent, DynamicPropertyDescriptor<bool> Property)
	: base(Name, Parent)
	{
	Property_ = Property;
	}

	public override int CountChecks
	{
	get
	{
	return 1;
	}
	}

	public override int CountExplicitlyDisabledChecks
	{
	get
	{
	if (Property_.IsInheriting)
	return 0;
	return (bool)Property_.GetValue(null) ? 0 : 1;
	}
	}

	public override int CountExplicitlyEnabledChecks
	{
	get
	{
	if (Property_.IsInheriting)
	return 0;
	return (bool)Property_.GetValue(null) ? 1 : 0;
	}
	}

	public override int CountInheritedChecks
	{
	get
	{
	return (Property_.IsInheriting) ? 1 : 0;
	}
	}

	}
	}