Fixed statement generation involving negative subqueries

Previously, we generated negative subqueries by integrating them into the main statement normally, and then making the connecting join be a LEFT JOIN instead of an INNER JOIN, and by adding a condition that the join column be NULL. The problem with this is that if the top table of the subquery joins against any other table (which join throughs always do), then no rows will be returned. This was solved by putting the subquery into a CTE and then LEFT JOINing as before with the CTE.
author: Kelly Rauchenberger <fefferburbia@gmail.com> 2017-01-21 19:00:45 -0500
committer: Kelly Rauchenberger <fefferburbia@gmail.com> 2017-01-21 19:00:45 -0500
commit: 9423ab7f075afd3e1501a2d1438fc8330811e40e (patch)
tree: 71f1b207711907aad2e02643838eb2e479714526
parent: 2a1f319b37dc3af45c136bfdc9226515c2fefaf2 (diff)
download: verbly-9423ab7f075afd3e1501a2d1438fc8330811e40e.tar.gz
verbly-9423ab7f075afd3e1501a2d1438fc8330811e40e.tar.bz2
verbly-9423ab7f075afd3e1501a2d1438fc8330811e40e.zip
2 files changed, 234 insertions, 57 deletions
diff --git a/lib/statement.cpp b/lib/statement.cpp
index f8d5346..64a4311 100644
--- a/lib/statement.cpp
+++ b/lib/statement.cpp

@@ -52,20 +52,24 @@ namespace verbly {
          cteStream << cte.getCondition().toSql();
        }
        
-        cteStream << " UNION SELECT l.* FROM ";
+        if (cte.isRecursive())
-        cteStream << cte.getIdentifier();
+        {
-        cteStream << " AS t INNER JOIN ";
+          cteStream << " UNION SELECT l.* FROM ";
-        cteStream << cte.getField().getTable();
+          cteStream << cte.getIdentifier();
-        cteStream << " AS j ON t.";
+          cteStream << " AS t INNER JOIN ";
-        cteStream << cte.getField().getColumn();
+          cteStream << cte.getField().getTable();
-        cteStream << " = j.";
+          cteStream << " AS j ON t.";
-        cteStream << cte.getField().getForeignJoinColumn();
+          cteStream << cte.getField().getColumn();
-        cteStream << " INNER JOIN ";
+          cteStream << " = j.";
-        cteStream << cte.getTableForId(cte.getTopTable());
+          cteStream << cte.getField().getForeignJoinColumn();
-        cteStream << " AS l ON j.";
+          cteStream << " INNER JOIN ";
-        cteStream << cte.getField().getJoinColumn();
+          cteStream << cte.getTableForId(cte.getTopTable());
-        cteStream << " = l.";
+          cteStream << " AS l ON j.";
-        cteStream << cte.getField().getColumn();
+          cteStream << cte.getField().getJoinColumn();
+          cteStream << " = l.";
+          cteStream << cte.getField().getColumn();
+        }
+        
        cteStream << ")";
        ctes.push_back(cteStream.str());
@@ -146,6 +150,13 @@ namespace verbly {
  {
  }
  
+  /**
+   * This function recursively parses the query's filter condition. It is not
+   * idempotent. It returns a condition object representing the passed filter,
+   * but it also modifies the statement object, specifically by adding any joins
+   * and CTEs that may be required to represent the passed filter. This may also
+   * involve instantiating tables.
+   */
  statement::condition statement::parseFilter(filter clause)
  {
    switch (clause.getType())
@@ -164,6 +175,9 @@ namespace verbly {
            return {};
          }
        
+          // For primitive type filters, all we need to do is translate the
+          // filter object directly into a condition object. No joins are
+          // necessary.
          case field::type::string:
          case field::type::integer:
          case field::type::boolean:
@@ -247,6 +261,7 @@ namespace verbly {
        
          case field::type::join:
          {
+            // First, figure out what table we need to join against.
            std::string joinTableName;
            if (clause.getField().hasTable())
            {
@@ -255,6 +270,9 @@ namespace verbly {
              joinTableName = getTableForContext(clause.getField().getJoinObject());
            }
+            // Recursively parse the subquery, and therefore obtain an
+            // instantiated table to join against, as well as any joins or CTEs
+            // that the subquery may require to function.
            statement joinStmt(
              joinTableName,
              clause.getJoinCondition().normalize(clause.getField().getJoinObject()),
@@ -262,23 +280,71 @@ namespace verbly {
              nextWithId_);
            
            std::string joinTable = joinStmt.topTable_;
-            condition curCond = integrate(std::move(joinStmt));
            
-            bool outer = false;
            if (clause.getComparison() == filter::comparison::does_not_match)
            {
-              outer = true;
+              // If the comparison is actually a negative filter, we can't just
+              // integrate the subquery statement into this statement and then
+              // join against it. Even if we LEFT JOIN against the subquery's
+              // top level table and then condition on the join column being
+              // NULL, if that table joins against any other table, the query
+              // will return zero results. Instead, we create a non-recursive
+              // CTE that represents the subquery, then LEFT JOIN against it and
+              // condition on the join column being NULL as before.
+              std::string withName = instantiateWith(clause.getField().getTable());
+              std::string withInstName = instantiateTable(withName);
              
-              curCond &= condition(joinTable, clause.getField().getColumn(), true);
+              // LEFT JOIN against the CTE.
-            }
+              joins_.emplace_back(
-            
+                true,
-            joins_.emplace_back(outer, joinTableName, topTable_, clause.getField().getColumn(), joinTable, clause.getField().getColumn());
+                withName,
+                topTable_,
+                clause.getField().getColumn(),
+                withInstName,
+                clause.getField().getColumn());
+              // All CTEs have to be in the main statement, so integrate any
+              // CTEs that our subquery uses. Also, retrieve the table mapping,
+              // joins list, and subquery condition, and use them to create the
+              // CTE.
+              std::map<std::string, std::string> cteTables = std::move(joinStmt.tables_);
+              std::list<join> cteJoins = std::move(joinStmt.joins_);
+              condition cteCondition = integrate(std::move(joinStmt), true);
            
-            return curCond;
+              withs_.emplace_back(
+                std::move(withName),
+                clause.getField(),
+                std::move(cteTables),
+                std::move(joinTable),
+                std::move(cteCondition),
+                std::move(cteJoins),
+                false);
+              
+              // Condition on the join column being NULL, which causes the query
+              // to only return results that do not match the subquery.
+              return condition(std::move(withInstName), clause.getField().getColumn(), true);
+            } else {
+              // INNER JOIN against the top table of the subquery.
+              joins_.emplace_back(
+                false,
+                std::move(joinTableName),
+                topTable_,
+                clause.getField().getColumn(),
+                std::move(joinTable),
+                clause.getField().getColumn());
+              
+              // Integrate the subquery's table mappings, joins, and CTEs into
+              // this statement, and return the subquery condition as our
+              // condition.
+              return integrate(std::move(joinStmt));
+            }
          }
        
          case field::type::join_through:
          {
+            // Recursively parse the subquery, and therefore obtain an
+            // instantiated table to join against, as well as any joins or CTEs
+            // that the subquery may require to function.
            statement joinStmt(
              getTableForContext(clause.getField().getJoinObject()),
              clause.getJoinCondition().normalize(clause.getField().getJoinObject()),
@@ -286,58 +352,143 @@ namespace verbly {
              nextWithId_);
              
            std::string joinTable = joinStmt.topTable_;
-            std::string throughTable = instantiateTable(clause.getField().getTable());
-            condition curCond = integrate(std::move(joinStmt));
            
-            bool outer = false;
            if (clause.getComparison() == filter::comparison::does_not_match)
            {
-              outer = true;
+              // If the comparison is actually a negative filter, we can't just
+              // integrate the subquery statement into this statement and then
+              // join against it. Even if we LEFT JOIN against the subquery's
+              // through table and then condition on the join column being NULL,
+              // the query will return zero results because the through table
+              // joins against the subquery's top level table. Instead, we
+              // create a non-recursive CTE that represents the through table
+              // joined against the subquery, then LEFT JOIN against it and
+              // condition on the join column being NULL as before.
+              std::string withName = instantiateWith(clause.getField().getTable());
+              std::string withInstName = instantiateTable(withName);
              
-              curCond &= condition(throughTable, clause.getField().getJoinColumn(), true);
+              // LEFT JOIN against the CTE.
-            }
+              joins_.emplace_back(
-            
+                true,
-            joins_.emplace_back(outer, clause.getField().getTable(), topTable_, clause.getField().getColumn(), throughTable, clause.getField().getJoinColumn());
+                withName,
-            joins_.emplace_back(false, getTableForContext(clause.getField().getJoinObject()), throughTable, clause.getField().getForeignJoinColumn(), joinTable, clause.getField().getForeignColumn());
+                topTable_,
+                clause.getField().getColumn(),
+                withInstName,
+                clause.getField().getJoinColumn());
+                
+              // Modify the substatement such that the through table is the top
+              // table, and such that it joins against the previous top table.
+              std::string throughTable = joinStmt.instantiateTable(clause.getField().getTable());
+              joinStmt.joins_.emplace_back(
+                false,
+                getTableForContext(clause.getField().getJoinObject()),
+                throughTable,
+                clause.getField().getForeignJoinColumn(),
+                std::move(joinTable),
+                clause.getField().getForeignColumn());
+                
+              joinStmt.topTable_ = throughTable;
+              // All CTEs have to be in the main statement, so integrate any
+              // CTEs that our subquery uses. Also, retrieve the table mapping,
+              // joins list, and subquery condition, and use them to create the
+              // CTE.
+              std::map<std::string, std::string> cteTables = std::move(joinStmt.tables_);
+              std::list<join> cteJoins = std::move(joinStmt.joins_);
+              condition cteCondition = integrate(std::move(joinStmt), true);
            
-            return curCond;
+              withs_.emplace_back(
+                std::move(withName),
+                clause.getField(),
+                std::move(cteTables),
+                std::move(throughTable),
+                std::move(cteCondition),
+                std::move(cteJoins),
+                false);
+              
+              // Condition on the join column being NULL, which causes the query
+              // to only return results that do not match the subquery.
+              return condition(std::move(withInstName), clause.getField().getJoinColumn(), true);
+            } else {
+              // Instantiate the through table.
+              std::string throughTable = instantiateTable(clause.getField().getTable());
+              
+              // INNER JOIN against the through table.
+              joins_.emplace_back(
+                false,
+                clause.getField().getTable(),
+                topTable_,
+                clause.getField().getColumn(),
+                throughTable,
+                clause.getField().getJoinColumn());
+              
+              // INNER JOIN from the through table to the top table of the subquery.
+              joins_.emplace_back(
+                false,
+                getTableForContext(clause.getField().getJoinObject()),
+                std::move(throughTable),
+                clause.getField().getForeignJoinColumn(),
+                std::move(joinTable),
+                clause.getField().getForeignColumn());
+              
+              // Integrate the subquery's table mappings, joins, and CTEs into
+              // this statement, and return the subquery condition as our
+              // condition.
+              return integrate(std::move(joinStmt));
+            }
          }
        
          case field::type::hierarchal_join:
          {
-            std::string withName = std::string(clause.getField().getTable()) + "_tree_" + std::to_string(nextWithId_++);
+            // Create a recursive CTE that represents the results of the subquery.
+            std::string withName = instantiateWith(clause.getField().getTable());
            std::string withInstName = instantiateTable(withName);
            
+            // If we are matching against the subquery, we INNER JOIN with the
+            // CTE. If we are negatively matching the subquery, we LEFT JOIN
+            // with the CTE.
            bool outer = false;
            if (clause.getComparison() == filter::comparison::does_not_hierarchally_match)
            {
              outer = true;
            }
            
-            joins_.emplace_back(outer, withName, topTable_, clause.getField().getColumn(), withInstName, clause.getField().getColumn());
+            // Join against the CTE.
+            joins_.emplace_back(
+              outer,
+              withName,
+              topTable_,
+              clause.getField().getColumn(),
+              withInstName,
+              clause.getField().getColumn());
            
+            // Recursively parse the subquery in order to create the CTE.
            statement withStmt(
              getTableForContext(clause.getField().getObject()),
              clause.getJoinCondition().normalize(clause.getField().getObject()),
              nextTableId_,
              nextWithId_);
              
-            for (auto& w : withStmt.withs_)
+            // All CTEs have to be in the main statement, so integrate any CTEs
-            {
+            // that our subquery uses. Also, retrieve the table mapping, joins
-              withs_.push_back(std::move(w));
+            // list, and subquery condition, and use them to create the CTE.
-            }
+            std::string cteTopTable = std::move(withStmt.topTable_);
-              
+            std::map<std::string, std::string> cteTables = std::move(withStmt.tables_);
-            nextTableId_ = withStmt.nextTableId_;
+            std::list<join> cteJoins = std::move(withStmt.joins_);
-            nextWithId_ = withStmt.nextWithId_;
+            condition cteCondition = integrate(std::move(withStmt), true);
-            
+          
            withs_.emplace_back(
-              withName,
+              std::move(withName),
              clause.getField(),
-              std::move(withStmt.tables_),
+              std::move(cteTables),
-              std::move(withStmt.topTable_),
+              std::move(cteTopTable),
-              std::move(withStmt.topCondition_),
+              std::move(cteCondition),
-              std::move(withStmt.joins_));
+              std::move(cteJoins),
+              true);
+            // If we are matching against the subquery, no condition is
+            // necessary. If we are negatively matching the subquery, we
+            // condition on the join column being NULL.
            if (clause.getComparison() == filter::comparison::does_not_hierarchally_match)
            {
              return condition(withInstName, clause.getField().getColumn(), true);
@@ -379,16 +530,32 @@ namespace verbly {
    return identifier;
  }
  
-  statement::condition statement::integrate(statement subStmt)
+  std::string statement::instantiateWith(std::string name)
  {
-    for (auto& mapping : subStmt.tables_)
+    return name + "_tree_" + std::to_string(nextWithId_++);
+  }
+  
+  /**
+   * This method integrates the parts of a recursively generated statement into
+   * this statement. This is used because filters are recursive objects, but
+   * statements need to be flat to be compiled into a SQL query. Thus, all CTEs
+   * have to be in the main statement, and all table mappings & joins that
+   * aren't part of a CTE have to be in the main statement as well. Finally, we
+   * need to copy up the next ID fields in order to properly prevent ID reuse.
+   */
+  statement::condition statement::integrate(statement subStmt, bool cte)
+  {
+    if (!cte)
    {
-      tables_[mapping.first] = mapping.second;
+      for (auto& mapping : subStmt.tables_)
-    }
+      {
+        tables_[mapping.first] = mapping.second;
+      }
        
-    for (auto& j : subStmt.joins_)
+      for (auto& j : subStmt.joins_)
-    {
+      {
-      joins_.push_back(j);
+        joins_.push_back(j);
+      }
    }
    
    for (auto& w : subStmt.withs_)
diff --git a/lib/statement.h b/lib/statement.h
index a528d60..8188ec0 100644
--- a/lib/statement.h
+++ b/lib/statement.h

@@ -184,13 +184,15 @@ namespace verbly {
        std::map<std::string, std::string> tables,
        std::string topTable,
        condition where,
-        std::list<join> joins) :
+        std::list<join> joins,
+        bool recursive) :
          identifier_(std::move(identifier)),
          field_(f),
          tables_(std::move(tables)),
          topTable_(std::move(topTable)),
          topCondition_(std::move(where)),
-          joins_(std::move(joins))
+          joins_(std::move(joins)),
+          recursive_(recursive)
      {
      }
      
@@ -224,6 +226,11 @@ namespace verbly {
        return joins_;
      }
      
+      bool isRecursive() const
+      {
+        return recursive_;
+      }
+      
    private:
      std::string identifier_;
      field field_;
@@ -231,6 +238,7 @@ namespace verbly {
      std::string topTable_;
      condition topCondition_;
      std::list<join> joins_;
+      bool recursive_;
      
    };
    
@@ -254,7 +262,9 @@ namespace verbly {
    
    std::string instantiateTable(std::string name);
    
-    condition integrate(statement subStmt);
+    std::string instantiateWith(std::string name);
+    
+    condition integrate(statement subStmt, bool cte = false);
    
    int nextTableId_;
    int nextWithId_;
author	Kelly Rauchenberger <fefferburbia@gmail.com>	2017-01-21 19:00:45 -0500
committer	Kelly Rauchenberger <fefferburbia@gmail.com>	2017-01-21 19:00:45 -0500
commit	9423ab7f075afd3e1501a2d1438fc8330811e40e (patch)
tree	71f1b207711907aad2e02643838eb2e479714526
parent	2a1f319b37dc3af45c136bfdc9226515c2fefaf2 (diff)
download	verbly-9423ab7f075afd3e1501a2d1438fc8330811e40e.tar.gz verbly-9423ab7f075afd3e1501a2d1438fc8330811e40e.tar.bz2 verbly-9423ab7f075afd3e1501a2d1438fc8330811e40e.zip

diff --git a/lib/statement.cpp b/lib/statement.cpp index f8d5346..64a4311 100644 --- a/lib/statement.cpp +++ b/lib/statement.cpp
@@ -52,20 +52,24 @@ namespace verbly {
52	cteStream << cte.getCondition().toSql();	52	cteStream << cte.getCondition().toSql();
53	}	53	}
54		54
55	cteStream << " UNION SELECT l.* FROM ";	55	if (cte.isRecursive())
56	cteStream << cte.getIdentifier();	56	{
57	cteStream << " AS t INNER JOIN ";	57	cteStream << " UNION SELECT l.* FROM ";
58	cteStream << cte.getField().getTable();	58	cteStream << cte.getIdentifier();
59	cteStream << " AS j ON t.";	59	cteStream << " AS t INNER JOIN ";
60	cteStream << cte.getField().getColumn();	60	cteStream << cte.getField().getTable();
61	cteStream << " = j.";	61	cteStream << " AS j ON t.";
62	cteStream << cte.getField().getForeignJoinColumn();	62	cteStream << cte.getField().getColumn();
63	cteStream << " INNER JOIN ";	63	cteStream << " = j.";
64	cteStream << cte.getTableForId(cte.getTopTable());	64	cteStream << cte.getField().getForeignJoinColumn();
65	cteStream << " AS l ON j.";	65	cteStream << " INNER JOIN ";
66	cteStream << cte.getField().getJoinColumn();	66	cteStream << cte.getTableForId(cte.getTopTable());
67	cteStream << " = l.";	67	cteStream << " AS l ON j.";
68	cteStream << cte.getField().getColumn();	68	cteStream << cte.getField().getJoinColumn();
		69	cteStream << " = l.";
		70	cteStream << cte.getField().getColumn();
		71	}
		72
69	cteStream << ")";	73	cteStream << ")";
70		74
71	ctes.push_back(cteStream.str());	75	ctes.push_back(cteStream.str());
@@ -146,6 +150,13 @@ namespace verbly {
146	{	150	{
147	}	151	}
148		152
		153	/**
		154	* This function recursively parses the query's filter condition. It is not
		155	* idempotent. It returns a condition object representing the passed filter,
		156	* but it also modifies the statement object, specifically by adding any joins
		157	* and CTEs that may be required to represent the passed filter. This may also
		158	* involve instantiating tables.
		159	*/
149	statement::condition statement::parseFilter(filter clause)	160	statement::condition statement::parseFilter(filter clause)
150	{	161	{
151	switch (clause.getType())	162	switch (clause.getType())
@@ -164,6 +175,9 @@ namespace verbly {
164	return {};	175	return {};
165	}	176	}
166		177
		178	// For primitive type filters, all we need to do is translate the
		179	// filter object directly into a condition object. No joins are
		180	// necessary.
167	case field::type::string:	181	case field::type::string:
168	case field::type::integer:	182	case field::type::integer:
169	case field::type::boolean:	183	case field::type::boolean:
@@ -247,6 +261,7 @@ namespace verbly {
247		261
248	case field::type::join:	262	case field::type::join:
249	{	263	{
		264	// First, figure out what table we need to join against.
250	std::string joinTableName;	265	std::string joinTableName;
251	if (clause.getField().hasTable())	266	if (clause.getField().hasTable())
252	{	267	{
@@ -255,6 +270,9 @@ namespace verbly {
255	joinTableName = getTableForContext(clause.getField().getJoinObject());	270	joinTableName = getTableForContext(clause.getField().getJoinObject());
256	}	271	}
257		272
		273	// Recursively parse the subquery, and therefore obtain an
		274	// instantiated table to join against, as well as any joins or CTEs
		275	// that the subquery may require to function.
258	statement joinStmt(	276	statement joinStmt(
259	joinTableName,	277	joinTableName,
260	clause.getJoinCondition().normalize(clause.getField().getJoinObject()),	278	clause.getJoinCondition().normalize(clause.getField().getJoinObject()),
@@ -262,23 +280,71 @@ namespace verbly {
262	nextWithId_);	280	nextWithId_);
263		281
264	std::string joinTable = joinStmt.topTable_;	282	std::string joinTable = joinStmt.topTable_;
265	condition curCond = integrate(std::move(joinStmt));
266		283
267	bool outer = false;
268	if (clause.getComparison() == filter::comparison::does_not_match)	284	if (clause.getComparison() == filter::comparison::does_not_match)
269	{	285	{
270	outer = true;	286	// If the comparison is actually a negative filter, we can't just
		287	// integrate the subquery statement into this statement and then
		288	// join against it. Even if we LEFT JOIN against the subquery's
		289	// top level table and then condition on the join column being
		290	// NULL, if that table joins against any other table, the query
		291	// will return zero results. Instead, we create a non-recursive
		292	// CTE that represents the subquery, then LEFT JOIN against it and
		293	// condition on the join column being NULL as before.
		294	std::string withName = instantiateWith(clause.getField().getTable());
		295	std::string withInstName = instantiateTable(withName);
271		296
272	curCond &= condition(joinTable, clause.getField().getColumn(), true);	297	// LEFT JOIN against the CTE.
273	}	298	joins_.emplace_back(
274		299	true,
275	joins_.emplace_back(outer, joinTableName, topTable_, clause.getField().getColumn(), joinTable, clause.getField().getColumn());	300	withName,
		301	topTable_,
		302	clause.getField().getColumn(),
		303	withInstName,
		304	clause.getField().getColumn());
		305
		306	// All CTEs have to be in the main statement, so integrate any
		307	// CTEs that our subquery uses. Also, retrieve the table mapping,
		308	// joins list, and subquery condition, and use them to create the
		309	// CTE.
		310	std::map<std::string, std::string> cteTables = std::move(joinStmt.tables_);
		311	std::list<join> cteJoins = std::move(joinStmt.joins_);
		312	condition cteCondition = integrate(std::move(joinStmt), true);
276		313
277	return curCond;	314	withs_.emplace_back(
		315	std::move(withName),
		316	clause.getField(),
		317	std::move(cteTables),
		318	std::move(joinTable),
		319	std::move(cteCondition),
		320	std::move(cteJoins),
		321	false);
		322
		323	// Condition on the join column being NULL, which causes the query
		324	// to only return results that do not match the subquery.
		325	return condition(std::move(withInstName), clause.getField().getColumn(), true);
		326	} else {
		327	// INNER JOIN against the top table of the subquery.
		328	joins_.emplace_back(
		329	false,
		330	std::move(joinTableName),
		331	topTable_,
		332	clause.getField().getColumn(),
		333	std::move(joinTable),
		334	clause.getField().getColumn());
		335
		336	// Integrate the subquery's table mappings, joins, and CTEs into
		337	// this statement, and return the subquery condition as our
		338	// condition.
		339	return integrate(std::move(joinStmt));
		340	}
278	}	341	}
279		342
280	case field::type::join_through:	343	case field::type::join_through:
281	{	344	{
		345	// Recursively parse the subquery, and therefore obtain an
		346	// instantiated table to join against, as well as any joins or CTEs
		347	// that the subquery may require to function.
282	statement joinStmt(	348	statement joinStmt(
283	getTableForContext(clause.getField().getJoinObject()),	349	getTableForContext(clause.getField().getJoinObject()),
284	clause.getJoinCondition().normalize(clause.getField().getJoinObject()),	350	clause.getJoinCondition().normalize(clause.getField().getJoinObject()),
@@ -286,58 +352,143 @@ namespace verbly {
286	nextWithId_);	352	nextWithId_);
287		353
288	std::string joinTable = joinStmt.topTable_;	354	std::string joinTable = joinStmt.topTable_;
289	std::string throughTable = instantiateTable(clause.getField().getTable());
290	condition curCond = integrate(std::move(joinStmt));
291		355
292	bool outer = false;
293	if (clause.getComparison() == filter::comparison::does_not_match)	356	if (clause.getComparison() == filter::comparison::does_not_match)
294	{	357	{
295	outer = true;	358	// If the comparison is actually a negative filter, we can't just
		359	// integrate the subquery statement into this statement and then
		360	// join against it. Even if we LEFT JOIN against the subquery's
		361	// through table and then condition on the join column being NULL,
		362	// the query will return zero results because the through table
		363	// joins against the subquery's top level table. Instead, we
		364	// create a non-recursive CTE that represents the through table
		365	// joined against the subquery, then LEFT JOIN against it and
		366	// condition on the join column being NULL as before.
		367	std::string withName = instantiateWith(clause.getField().getTable());
		368	std::string withInstName = instantiateTable(withName);
296		369
297	curCond &= condition(throughTable, clause.getField().getJoinColumn(), true);	370	// LEFT JOIN against the CTE.
298	}	371	joins_.emplace_back(
299		372	true,
300	joins_.emplace_back(outer, clause.getField().getTable(), topTable_, clause.getField().getColumn(), throughTable, clause.getField().getJoinColumn());	373	withName,
301	joins_.emplace_back(false, getTableForContext(clause.getField().getJoinObject()), throughTable, clause.getField().getForeignJoinColumn(), joinTable, clause.getField().getForeignColumn());	374	topTable_,
		375	clause.getField().getColumn(),
		376	withInstName,
		377	clause.getField().getJoinColumn());
		378
		379	// Modify the substatement such that the through table is the top
		380	// table, and such that it joins against the previous top table.
		381	std::string throughTable = joinStmt.instantiateTable(clause.getField().getTable());
		382	joinStmt.joins_.emplace_back(
		383	false,
		384	getTableForContext(clause.getField().getJoinObject()),
		385	throughTable,
		386	clause.getField().getForeignJoinColumn(),
		387	std::move(joinTable),
		388	clause.getField().getForeignColumn());
		389
		390	joinStmt.topTable_ = throughTable;
		391
		392	// All CTEs have to be in the main statement, so integrate any
		393	// CTEs that our subquery uses. Also, retrieve the table mapping,
		394	// joins list, and subquery condition, and use them to create the
		395	// CTE.
		396	std::map<std::string, std::string> cteTables = std::move(joinStmt.tables_);
		397	std::list<join> cteJoins = std::move(joinStmt.joins_);
		398	condition cteCondition = integrate(std::move(joinStmt), true);
302		399
303	return curCond;	400	withs_.emplace_back(
		401	std::move(withName),
		402	clause.getField(),
		403	std::move(cteTables),
		404	std::move(throughTable),
		405	std::move(cteCondition),
		406	std::move(cteJoins),
		407	false);
		408
		409	// Condition on the join column being NULL, which causes the query
		410	// to only return results that do not match the subquery.
		411	return condition(std::move(withInstName), clause.getField().getJoinColumn(), true);
		412	} else {
		413	// Instantiate the through table.
		414	std::string throughTable = instantiateTable(clause.getField().getTable());
		415
		416	// INNER JOIN against the through table.
		417	joins_.emplace_back(
		418	false,
		419	clause.getField().getTable(),
		420	topTable_,
		421	clause.getField().getColumn(),
		422	throughTable,
		423	clause.getField().getJoinColumn());
		424
		425	// INNER JOIN from the through table to the top table of the subquery.
		426	joins_.emplace_back(
		427	false,
		428	getTableForContext(clause.getField().getJoinObject()),
		429	std::move(throughTable),
		430	clause.getField().getForeignJoinColumn(),
		431	std::move(joinTable),
		432	clause.getField().getForeignColumn());
		433
		434	// Integrate the subquery's table mappings, joins, and CTEs into
		435	// this statement, and return the subquery condition as our
		436	// condition.
		437	return integrate(std::move(joinStmt));
		438	}
304	}	439	}
305		440
306	case field::type::hierarchal_join:	441	case field::type::hierarchal_join:
307	{	442	{
308	std::string withName = std::string(clause.getField().getTable()) + "_tree_" + std::to_string(nextWithId_++);	443	// Create a recursive CTE that represents the results of the subquery.
		444	std::string withName = instantiateWith(clause.getField().getTable());
309	std::string withInstName = instantiateTable(withName);	445	std::string withInstName = instantiateTable(withName);
310		446
		447	// If we are matching against the subquery, we INNER JOIN with the
		448	// CTE. If we are negatively matching the subquery, we LEFT JOIN
		449	// with the CTE.
311	bool outer = false;	450	bool outer = false;
312	if (clause.getComparison() == filter::comparison::does_not_hierarchally_match)	451	if (clause.getComparison() == filter::comparison::does_not_hierarchally_match)
313	{	452	{
314	outer = true;	453	outer = true;
315	}	454	}
316		455
317	joins_.emplace_back(outer, withName, topTable_, clause.getField().getColumn(), withInstName, clause.getField().getColumn());	456	// Join against the CTE.
		457	joins_.emplace_back(
		458	outer,
		459	withName,
		460	topTable_,
		461	clause.getField().getColumn(),
		462	withInstName,
		463	clause.getField().getColumn());
318		464
		465	// Recursively parse the subquery in order to create the CTE.
319	statement withStmt(	466	statement withStmt(
320	getTableForContext(clause.getField().getObject()),	467	getTableForContext(clause.getField().getObject()),
321	clause.getJoinCondition().normalize(clause.getField().getObject()),	468	clause.getJoinCondition().normalize(clause.getField().getObject()),
322	nextTableId_,	469	nextTableId_,
323	nextWithId_);	470	nextWithId_);
324		471
325	for (auto& w : withStmt.withs_)	472	// All CTEs have to be in the main statement, so integrate any CTEs
326	{	473	// that our subquery uses. Also, retrieve the table mapping, joins
327	withs_.push_back(std::move(w));	474	// list, and subquery condition, and use them to create the CTE.
328	}	475	std::string cteTopTable = std::move(withStmt.topTable_);
329		476	std::map<std::string, std::string> cteTables = std::move(withStmt.tables_);
330	nextTableId_ = withStmt.nextTableId_;	477	std::list<join> cteJoins = std::move(withStmt.joins_);
331	nextWithId_ = withStmt.nextWithId_;	478	condition cteCondition = integrate(std::move(withStmt), true);
332		479
333	withs_.emplace_back(	480	withs_.emplace_back(
334	withName,	481	std::move(withName),
335	clause.getField(),	482	clause.getField(),
336	std::move(withStmt.tables_),	483	std::move(cteTables),
337	std::move(withStmt.topTable_),	484	std::move(cteTopTable),
338	std::move(withStmt.topCondition_),	485	std::move(cteCondition),
339	std::move(withStmt.joins_));	486	std::move(cteJoins),
		487	true);
340		488
		489	// If we are matching against the subquery, no condition is
		490	// necessary. If we are negatively matching the subquery, we
		491	// condition on the join column being NULL.
341	if (clause.getComparison() == filter::comparison::does_not_hierarchally_match)	492	if (clause.getComparison() == filter::comparison::does_not_hierarchally_match)
342	{	493	{
343	return condition(withInstName, clause.getField().getColumn(), true);	494	return condition(withInstName, clause.getField().getColumn(), true);
@@ -379,16 +530,32 @@ namespace verbly {
379	return identifier;	530	return identifier;
380	}	531	}
381		532
382	statement::condition statement::integrate(statement subStmt)	533	std::string statement::instantiateWith(std::string name)
383	{	534	{
384	for (auto& mapping : subStmt.tables_)	535	return name + "_tree_" + std::to_string(nextWithId_++);
		536	}
		537
		538	/**
		539	* This method integrates the parts of a recursively generated statement into
		540	* this statement. This is used because filters are recursive objects, but
		541	* statements need to be flat to be compiled into a SQL query. Thus, all CTEs
		542	* have to be in the main statement, and all table mappings & joins that
		543	* aren't part of a CTE have to be in the main statement as well. Finally, we
		544	* need to copy up the next ID fields in order to properly prevent ID reuse.
		545	*/
		546	statement::condition statement::integrate(statement subStmt, bool cte)
		547	{
		548	if (!cte)
385	{	549	{
386	tables_[mapping.first] = mapping.second;	550	for (auto& mapping : subStmt.tables_)
387	}	551	{
		552	tables_[mapping.first] = mapping.second;
		553	}
388		554
389	for (auto& j : subStmt.joins_)	555	for (auto& j : subStmt.joins_)
390	{	556	{
391	joins_.push_back(j);	557	joins_.push_back(j);
		558	}
392	}	559	}
393		560
394	for (auto& w : subStmt.withs_)	561	for (auto& w : subStmt.withs_)


diff --git a/lib/statement.h b/lib/statement.h index a528d60..8188ec0 100644 --- a/lib/statement.h +++ b/lib/statement.h
@@ -184,13 +184,15 @@ namespace verbly {
184	std::map<std::string, std::string> tables,	184	std::map<std::string, std::string> tables,
185	std::string topTable,	185	std::string topTable,
186	condition where,	186	condition where,
187	std::list<join> joins) :	187	std::list<join> joins,
		188	bool recursive) :
188	identifier_(std::move(identifier)),	189	identifier_(std::move(identifier)),
189	field_(f),	190	field_(f),
190	tables_(std::move(tables)),	191	tables_(std::move(tables)),
191	topTable_(std::move(topTable)),	192	topTable_(std::move(topTable)),
192	topCondition_(std::move(where)),	193	topCondition_(std::move(where)),
193	joins_(std::move(joins))	194	joins_(std::move(joins)),
		195	recursive_(recursive)
194	{	196	{
195	}	197	}
196		198
@@ -224,6 +226,11 @@ namespace verbly {
224	return joins_;	226	return joins_;
225	}	227	}
226		228
		229	bool isRecursive() const
		230	{
		231	return recursive_;
		232	}
		233
227	private:	234	private:
228	std::string identifier_;	235	std::string identifier_;
229	field field_;	236	field field_;
@@ -231,6 +238,7 @@ namespace verbly {
231	std::string topTable_;	238	std::string topTable_;
232	condition topCondition_;	239	condition topCondition_;
233	std::list<join> joins_;	240	std::list<join> joins_;
		241	bool recursive_;
234		242
235	};	243	};
236		244
@@ -254,7 +262,9 @@ namespace verbly {
254		262
255	std::string instantiateTable(std::string name);	263	std::string instantiateTable(std::string name);
256		264
257	condition integrate(statement subStmt);	265	std::string instantiateWith(std::string name);
		266
		267	condition integrate(statement subStmt, bool cte = false);
258		268
259	int nextTableId_;	269	int nextTableId_;
260	int nextWithId_;	270	int nextWithId_;