/* Copyright (C) 2014 InfiniDB, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include using namespace std; #include #include #include #include #include #include "messagequeue.h" #include "bytestream.h" using namespace messageqcpp; #include "calpontselectexecutionplan.h" #include "simplefilter.h" #include "simplecolumn.h" #include "expressionparser.h" #include "constantcolumn.h" #include "treenode.h" #include "operator.h" #include "arithmeticcolumn.h" #include "aggregatecolumn.h" #include "selectfilter.h" //#include "conditionfilter.h" extern "C" char* cplus_demangle_with_style(const char*, int, int); extern "C" void init_demangler(int, int, int); using namespace execplan; class ExecPlanTest : public CppUnit::TestFixture { CPPUNIT_TEST_SUITE(ExecPlanTest); CPPUNIT_TEST(selectExecutionPlan_18); CPPUNIT_TEST_SUITE_END(); private: public: static void walkfnString(const ParseTree* n) { char* r; static bool is_init = false; const char* mname = typeid(*(n->data())).name(); if (!is_init) { ::init_demangler(0, 0, 0); is_init = true; } r = ::cplus_demangle_with_style(mname, 7, 27); if (r != 0) { // cout << "mangle: " << mname << " demangle: " << r << endl; ::free(r); } if (typeid(*(n->data())) == typeid(SimpleFilter)) { cout << "SimpleFilter: " << endl; const SimpleFilter* sf = dynamic_cast(n->data()); const ReturnedColumn* lhs = sf->lhs(); const ReturnedColumn* rhs = sf->rhs(); const Operator* op = sf->op(); cout << '\t' << lhs->data() << ' ' << op->data() << ' ' << rhs->data(); cout << endl << "\t\t"; if (typeid(*lhs) == typeid(SimpleColumn)) { cout << "SimpleColumn: " << lhs->data() << " / "; } else if (typeid(*lhs) == typeid(ConstantColumn)) { cout << "ConstantColumn: " << lhs->data() << " / "; } else { cout << "UNK: " << lhs->data() << " / "; } cout << "Operator: " << op->data() << " / "; if (typeid(*rhs) == typeid(SimpleColumn)) { cout << "SimpleColumn: " << rhs->data(); } else if (typeid(*rhs) == typeid(ConstantColumn)) { cout << "ConstantColumn: " << rhs->data(); } else { cout << "UNK: " << rhs->data(); } } else if (typeid(*(n->data())) == typeid(Operator)) { cout << "Operator: "; const Operator* op = dynamic_cast(n->data()); cout << '\t' << op->data(); } else { cout << mname << " -x-: "; } cout << endl; } void setUp() { } void tearDown() { } void selectExecutionPlan_18() { cout << "SQL: \ select \ c_name, \ c_custkey, \ o_orderkey, \ o_orderdate, \ o_totalprice, \ sum(l_quantity) \ from \ customer, \ orders, \ lineitem \ where \ o_orderkey in ( \ select \ l_orderkey \ from \ lineitem \ group by \ l_orderkey having \ sum(l_quantity) > :1 \ ) \ and c_custkey = o_custkey \ and o_orderkey = l_orderkey \ group by \ c_name, \ c_custkey, \ o_orderkey, \ o_orderdate, \ o_totalprice \ order by \ o_totalprice desc, \ o_orderdate;" << endl; // **** // **** THIS QUERY IS MISSING THE HAVING CLAUSE ON THE GROUP BY **** // **** // This is the main query body for query 18 CalpontSelectExecutionPlan* csep = new CalpontSelectExecutionPlan(); // Create the Projection (returned columns) CalpontSelectExecutionPlan::ReturnedColumnList colList; SimpleColumn* c1 = new SimpleColumn("tpch.customer.c_name"); colList.push_back(c1); SimpleColumn* c2 = new SimpleColumn("tpch.customer.c_custkey"); colList.push_back(c2); SimpleColumn* c3 = new SimpleColumn("tpch.orders.o_orderkey"); colList.push_back(c3); SimpleColumn* c4 = new SimpleColumn("tpch.orders.o_orderdate"); colList.push_back(c4); SimpleColumn* c5 = new SimpleColumn("tpch.orders.o_totalprice"); colList.push_back(c5); ArithmeticColumn* c6 = new ArithmeticColumn("sum(l_quantity)"); colList.push_back(c6); csep->returnedCols(colList); // set Projection columns // Filter columns CalpontSelectExecutionPlan::FilterTokenList csep_filterlist; // Sub select filter CalpontSelectExecutionPlan* subcsep = new CalpontSelectExecutionPlan(CalpontSelectExecutionPlan::WHERE); // subselect return column(s) CalpontSelectExecutionPlan::ReturnedColumnList subColList; SimpleColumn* sc1 = new SimpleColumn("tpch.lineitem.l_orderkey"); subColList.push_back(sc1); // Append returned columns to subselect subcsep->returnedCols(subColList); // subselect Filters CalpontSelectExecutionPlan::FilterTokenList subcsep_filterlist; SimpleFilter* sf1 = new SimpleFilter(new Operator("IN"), new SimpleColumn("tpch.lineitem.??"), new ConstantColumn("%Customer%Complaints%")); subcsep_filterlist.push_back(sf1); // Build subGroup By List CalpontSelectExecutionPlan::GroupByColumnList subcsep_groupbyList; SimpleColumn* sg1 = new SimpleColumn("tpch.lineitem.l_orderkey"); subcsep_groupbyList.push_back(sg1); subcsep->groupByCols(subcsep_groupbyList); // Set GroupBy columns // subHaving Filters CalpontSelectExecutionPlan::FilterTokenList subcsep_havingList; SimpleFilter* sh1 = new SimpleFilter(new Operator(">"), new ArithmeticColumn("sum(l_quantity)"), new ConstantColumn(":1")); subcsep_havingList.push_back(sh1); subcsep->havingTokenList(subcsep_havingList); // Set GroupBy columns // subcsep->filterTokenList(subcsep_havingList); //Set GroupBy columns /* --------------- sub select ends here ---------------- */ // CalpontSelectExecutionPlan::FilterTokenList subFilterTokenList; SelectFilter* f1 = new SelectFilter(new SimpleColumn("tpch.orders.o_orderkey"), new Operator("IN"), subcsep); csep_filterlist.push_back(f1); csep_filterlist.push_back(new Operator("and")); SimpleFilter* f2 = new SimpleFilter(new Operator("="), new SimpleColumn("tpch.customer.c_custkey"), new SimpleColumn("tpch.orders.o_custkey")); csep_filterlist.push_back(f2); csep_filterlist.push_back(new Operator("and")); SimpleFilter* f3 = new SimpleFilter(new Operator("="), new SimpleColumn("tpch.orders.o_orderkey"), new SimpleColumn("tpch.lineitem.l_orderkey")); csep_filterlist.push_back(f3); csep->filterTokenList(csep_filterlist); // Set Filter Columns // Build Group By List CalpontSelectExecutionPlan::GroupByColumnList csep_groupbyList; SimpleColumn* g1 = new SimpleColumn("tpch.customer.c_name"); csep_groupbyList.push_back(g1); SimpleColumn* g2 = new SimpleColumn("tpch.customer.c_custkey"); csep_groupbyList.push_back(g2); SimpleColumn* g3 = new SimpleColumn("tpch.orders.o_orderkey"); csep_groupbyList.push_back(g3); SimpleColumn* g4 = new SimpleColumn("tpch.orders.o_orderdate"); csep_groupbyList.push_back(g4); SimpleColumn* g5 = new SimpleColumn("tpch.orders.o_totalprice"); csep_groupbyList.push_back(g5); csep->groupByCols(csep_groupbyList); // Set GroupBy columns // Order By List CalpontSelectExecutionPlan::OrderByColumnList csep_orderbyList; SimpleColumn* o1 = new SimpleColumn("tpch.orders.o_totalprice"); o1->asc(false); csep_orderbyList.push_back(o1); SimpleColumn* o2 = new SimpleColumn("tpch.orders.o_orderdate"); csep_orderbyList.push_back(o2); csep->orderByCols(csep_orderbyList); // Set OrderBy columns // filterList->walk(walkfnString); ?? // Print the parse tree ParseTree* pt = const_cast(csep->filters()); pt->drawTree("selectExecutionPlan_18.dot"); cout << "\nCalpont Execution Plan:" << endl; cout << *csep << endl; cout << " --- end of test 18 ---" << endl; } }; CPPUNIT_TEST_SUITE_REGISTRATION(ExecPlanTest); #include #include int main(int argc, char** argv) { CppUnit::TextUi::TestRunner runner; CppUnit::TestFactoryRegistry& registry = CppUnit::TestFactoryRegistry::getRegistry(); runner.addTest(registry.makeTest()); bool wasSuccessful = runner.run("", false); return (wasSuccessful ? 0 : 1); }