/// <summary>Creates a new <see cref="PredictionTreeFollow"/> instance with the <paramref name="initialPaths"/>, and <paramref name="edgeNode"/> provided.</summary> /// <param name="initialPaths">The <see cref="PredictionTree"/> built from the analysis of the incoming paths to a rule which are in an initial deadlock for disambiguation upon the rule entering the <paramref name="edgeNode"/>.</param> /// <param name="edgeNode">The <see cref="PredictionTreeLeaf"/> which delineates the ambiguity.</param> internal PredictionTreeFollow(PredictionTree initialPaths, PredictionTreeLeaf edgeNode) { this.initialPaths = initialPaths; this.edgeNode = edgeNode; /* * * Initial variations are used to deconstruct the incoming states * * * Necessary because certain commonality groupings yield similarities * that are only similar to the edgeNode, which means the transition * sets are identical. * * * ToDo: Verify this claim. * */ }
public TerminalTailSource(PredictionTreeLeaf parent) { this.parent = parent; }
/// <summary>Creates a new <see cref="PredictionTreeLeafVeins"/> instance with the <paramref name="parent"/> provided.</summary> /// <param name="parent">The <see cref="PredictionTreeLeaf"/> from which the <see cref="PredictionTreeLeafVeins"/> is derived.</param> public PredictionTreeLeafVeins(PredictionTreeLeaf leaf, SyntacticalDFAState originalState, IOilexerGrammarProductionRuleEntry rule) { this.Leaf = leaf; this.DFAOriginState = originalState; this.Rule = rule; }
public PredictionTreeFollowCaller(PredictionTreeLeaf followNode) { this.Node = followNode; }
internal void PostConnect(PredictionTreeLeaf rootNode, PredictionTreeDFAdapter rootAdapter) { this.rootNode = rootNode; this.rootAdapter = rootAdapter; }