#pragma once #include #include #include #include #include namespace DB { /* * Graph of relations between terms in constraints. * Allows to compare terms and get equal terms. */ class ComparisonGraph { public: /// atomic_formulas are extracted from constraints. explicit ComparisonGraph(const ASTs & atomic_formulas); enum class CompareResult { LESS, LESS_OR_EQUAL, EQUAL, GREATER_OR_EQUAL, GREATER, NOT_EQUAL, UNKNOWN, }; static CompareResult atomToCompareResult(const CNFQuery::AtomicFormula & atom); static CompareResult functionNameToCompareResult(const std::string & name); static CompareResult inverseCompareResult(CompareResult result); CompareResult compare(const ASTPtr & left, const ASTPtr & right) const; /// It's possible that left right bool isPossibleCompare(CompareResult expected, const ASTPtr & left, const ASTPtr & right) const; /// It's always true that left right bool isAlwaysCompare(CompareResult expected, const ASTPtr & left, const ASTPtr & right) const; /// Returns all expressions from component to which @ast belongs if any. ASTs getEqual(const ASTPtr & ast) const; /// Returns constant expression from component to which @ast belongs if any. std::optional getEqualConst(const ASTPtr & ast) const; /// Finds component id to which @ast belongs if any. std::optional getComponentId(const ASTPtr & ast) const; /// Returns all expressions from component. ASTs getComponent(size_t id) const; size_t getNumOfComponents() const { return graph.vertices.size(); } bool hasPath(size_t left, size_t right) const; /// Find constants lessOrEqual and greaterOrEqual. /// For int and double linear programming can be applied here. /// Returns: {constant, is strict less/greater} std::optional> getConstUpperBound(const ASTPtr & ast) const; std::optional> getConstLowerBound(const ASTPtr & ast) const; /// Returns all expression in graph. std::vector getVertices() const; private: /// Strongly connected component struct EqualComponent { /// All these expressions are considered as equal. ASTs asts; std::optional constant_index; bool hasConstant() const; ASTPtr getConstant() const; void buildConstants(); }; /// Edge (from, to, type) means that it's always true that @from @to, /// where @op is the operation of type @type. /// /// TODO: move to diff for int and double: /// GREATER and GREATER_OR_EQUAL with +const or 0 --- ok /// with -const --- not ok /// EQUAL is ok only for 0 struct Edge { enum Type { GREATER, GREATER_OR_EQUAL, EQUAL, }; Type type; size_t to; }; struct Graph { struct ASTHash { size_t operator() (const IAST::Hash & hash) const { return hash.first; } }; std::unordered_map ast_hash_to_component; std::vector vertices; std::vector> edges; }; /// Receives graph, in which each vertex corresponds to one expression. /// Then finds strongly connected components and builds graph on them. static Graph buildGraphFromAstsGraph(const Graph & asts_graph); static Graph reverseGraph(const Graph & asts_graph); /// The first part of finding strongly connected components. /// Finds order of exit from vertices of dfs traversal of graph. static void dfsOrder(const Graph & asts_graph, size_t v, std::vector & visited, std::vector & order); using OptionalIndices = std::vector>; /// The second part of finding strongly connected components. /// Assigns index of component for each vertex. static void dfsComponents( const Graph & reversed_graph, size_t v, OptionalIndices & components, size_t component); enum class Path { GREATER, GREATER_OR_EQUAL, }; static CompareResult pathToCompareResult(Path path, bool inverse); std::optional findPath(size_t start, size_t finish) const; /// Calculate @dists. static std::map, Path> buildDistsFromGraph(const Graph & g); /// Calculate @ast_const_lower_bound and @ast_const_lower_bound. std::pair, std::vector> buildConstBounds() const; /// Direct acyclic graph in which each vertex corresponds /// to one equivalence class of expressions. /// Each edge sets the relation between classes (GREATER or GREATER_OR_EQUAL). Graph graph; /// Precalculated distances between each pair of vertices. /// Distance can be either 0 or -1. /// 0 means GREATER_OR_EQUAL. /// -1 means GREATER. std::map, Path> dists; /// Explicitly collected components, for which it's known /// that expressions in them are unequal. std::set> not_equal; /// Maximal constant value for each component that /// is lower bound for all expressions in component. std::vector ast_const_lower_bound; /// Minimal constant value for each component that /// is upper bound for all expressions in component. std::vector ast_const_upper_bound; }; }