/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * 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. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include #include #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wwrite-strings" #pragma GCC diagnostic ignored "-Wunused-function" #pragma GCC diagnostic ignored "-Wunused-variable" #pragma GCC diagnostic ignored "-Wsign-compare" #include "os.h" #include "tglobal.h" #include "executorimpl.h" #include "function.h" #include "taos.h" #include "tdef.h" #include "tvariant.h" #include "tdatablock.h" #include "trpc.h" #include "stub.h" #include "executor.h" #include "tmsg.h" #include "tname.h" namespace { enum { data_rand = 0x1, data_asc = 0x2, data_desc = 0x3, }; typedef struct SDummyInputInfo { int32_t totalPages; // numOfPages int32_t current; int32_t startVal; int32_t type; int32_t numOfRowsPerPage; int32_t numOfCols; // number of columns int64_t tsStart; SSDataBlock* pBlock; } SDummyInputInfo; SSDataBlock* getDummyBlock(void* param, bool* newgroup) { SOperatorInfo* pOperator = static_cast(param); SDummyInputInfo* pInfo = static_cast(pOperator->info); if (pInfo->current >= pInfo->totalPages) { return NULL; } if (pInfo->pBlock == NULL) { pInfo->pBlock = static_cast(calloc(1, sizeof(SSDataBlock))); pInfo->pBlock->pDataBlock = taosArrayInit(4, sizeof(SColumnInfoData)); SColumnInfoData colInfo = {0}; colInfo.info.type = TSDB_DATA_TYPE_INT; colInfo.info.bytes = sizeof(int32_t); colInfo.info.colId = 1; colInfo.pData = static_cast(calloc(pInfo->numOfRowsPerPage, sizeof(int32_t))); colInfo.nullbitmap = static_cast(calloc(1, (pInfo->numOfRowsPerPage + 7) / 8)); taosArrayPush(pInfo->pBlock->pDataBlock, &colInfo); // SColumnInfoData colInfo1 = {0}; // colInfo1.info.type = TSDB_DATA_TYPE_BINARY; // colInfo1.info.bytes = 40; // colInfo1.info.colId = 2; // // colInfo1.varmeta.allocLen = 0;//numOfRows * sizeof(int32_t); // colInfo1.varmeta.length = 0; // colInfo1.varmeta.offset = static_cast(calloc(1, numOfRows * sizeof(int32_t))); // // taosArrayPush(pInfo->pBlock->pDataBlock, &colInfo1); } else { blockDataClearup(pInfo->pBlock, true); } SSDataBlock* pBlock = pInfo->pBlock; char buf[128] = {0}; char b1[128] = {0}; int32_t v = 0; for(int32_t i = 0; i < pInfo->numOfRowsPerPage; ++i) { SColumnInfoData* pColInfo = static_cast(TARRAY_GET_ELEM(pBlock->pDataBlock, 0)); if (pInfo->type == data_desc) { v = (--pInfo->startVal); } else if (pInfo->type == data_asc) { v = ++pInfo->startVal; } else if (pInfo->type == data_rand) { v = random(); } colDataAppend(pColInfo, i, reinterpret_cast(&v), false); // sprintf(buf, "this is %d row", i); // STR_TO_VARSTR(b1, buf); // // SColumnInfoData* pColInfo2 = static_cast(TARRAY_GET_ELEM(pBlock->pDataBlock, 1)); // colDataAppend(pColInfo2, i, b1, false); } pBlock->info.rows = pInfo->numOfRowsPerPage; pBlock->info.numOfCols = 1; pInfo->current += 1; return pBlock; } SSDataBlock* get2ColsDummyBlock(void* param, bool* newgroup) { SOperatorInfo* pOperator = static_cast(param); SDummyInputInfo* pInfo = static_cast(pOperator->info); if (pInfo->current >= pInfo->totalPages) { return NULL; } if (pInfo->pBlock == NULL) { pInfo->pBlock = static_cast(calloc(1, sizeof(SSDataBlock))); pInfo->pBlock->pDataBlock = taosArrayInit(4, sizeof(SColumnInfoData)); SColumnInfoData colInfo = {0}; colInfo.info.type = TSDB_DATA_TYPE_TIMESTAMP; colInfo.info.bytes = sizeof(int64_t); colInfo.info.colId = 1; colInfo.pData = static_cast(calloc(pInfo->numOfRowsPerPage, sizeof(int64_t))); // colInfo.nullbitmap = static_cast(calloc(1, (pInfo->numOfRowsPerPage + 7) / 8)); taosArrayPush(pInfo->pBlock->pDataBlock, &colInfo); SColumnInfoData colInfo1 = {0}; colInfo1.info.type = TSDB_DATA_TYPE_INT; colInfo1.info.bytes = 4; colInfo1.info.colId = 2; colInfo1.pData = static_cast(calloc(pInfo->numOfRowsPerPage, sizeof(int32_t))); colInfo1.nullbitmap = static_cast(calloc(1, (pInfo->numOfRowsPerPage + 7) / 8)); taosArrayPush(pInfo->pBlock->pDataBlock, &colInfo1); } else { blockDataClearup(pInfo->pBlock, false); } SSDataBlock* pBlock = pInfo->pBlock; char buf[128] = {0}; char b1[128] = {0}; int64_t ts = 0; int32_t v = 0; for(int32_t i = 0; i < pInfo->numOfRowsPerPage; ++i) { SColumnInfoData* pColInfo = static_cast(TARRAY_GET_ELEM(pBlock->pDataBlock, 0)); ts = (++pInfo->tsStart); colDataAppend(pColInfo, i, reinterpret_cast(&ts), false); SColumnInfoData* pColInfo1 = static_cast(TARRAY_GET_ELEM(pBlock->pDataBlock, 1)); if (pInfo->type == data_desc) { v = (--pInfo->startVal); } else if (pInfo->type == data_asc) { v = ++pInfo->startVal; } else if (pInfo->type == data_rand) { v = random(); } colDataAppend(pColInfo1, i, reinterpret_cast(&v), false); // sprintf(buf, "this is %d row", i); // STR_TO_VARSTR(b1, buf); // // SColumnInfoData* pColInfo2 = static_cast(TARRAY_GET_ELEM(pBlock->pDataBlock, 1)); // colDataAppend(pColInfo2, i, b1, false); } pBlock->info.rows = pInfo->numOfRowsPerPage; pBlock->info.numOfCols = 1; pInfo->current += 1; blockDataUpdateTsWindow(pBlock); return pBlock; } SOperatorInfo* createDummyOperator(int32_t startVal, int32_t numOfBlocks, int32_t rowsPerPage, int32_t type, int32_t numOfCols) { SOperatorInfo* pOperator = static_cast(calloc(1, sizeof(SOperatorInfo))); pOperator->name = "dummyInputOpertor4Test"; if (numOfCols == 1) { pOperator->nextDataFn = getDummyBlock; } else { pOperator->nextDataFn = get2ColsDummyBlock; } SDummyInputInfo *pInfo = (SDummyInputInfo*) calloc(1, sizeof(SDummyInputInfo)); pInfo->totalPages = numOfBlocks; pInfo->startVal = startVal; pInfo->numOfRowsPerPage = rowsPerPage; pInfo->type = type; pInfo->tsStart = 1620000000000; pOperator->info = pInfo; return pOperator; } } int main(int argc, char** argv) { testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } TEST(testCase, build_executor_tree_Test) { const char* msg = "{\n" " \"NodeType\": \"48\",\n" " \"Name\": \"PhysiSubplan\",\n" " \"PhysiSubplan\": {\n" " \"Id\": {\n" " \"QueryId\": \"0\",\n" " \"TemplateId\": \"0\",\n" " \"SubplanId\": \"0\"\n" " },\n" " \"SubplanType\": \"0\",\n" " \"MsgType\": \"515\",\n" " \"Level\": \"0\",\n" " \"NodeAddr\": {\n" " \"Id\": \"1\",\n" " \"InUse\": \"0\",\n" " \"NumOfEps\": \"1\",\n" " \"Eps\": [\n" " {\n" " \"Fqdn\": \"node1\",\n" " \"Port\": \"6030\"\n" " }\n" " ]\n" " },\n" " \"RootNode\": {\n" " \"NodeType\": \"41\",\n" " \"Name\": \"PhysiProject\",\n" " \"PhysiProject\": {\n" " \"OutputDataBlockDesc\": {\n" " \"NodeType\": \"19\",\n" " \"Name\": \"TupleDesc\",\n" " \"TupleDesc\": {\n" " \"DataBlockId\": \"1\",\n" " \"Slots\": [\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"0\",\n" " \"DataType\": {\n" " \"Type\": \"9\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"1\",\n" " \"DataType\": {\n" " \"Type\": \"4\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"4\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"2\",\n" " \"DataType\": {\n" " \"Type\": \"8\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"20\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"3\",\n" " \"DataType\": {\n" " \"Type\": \"5\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"4\",\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"5\",\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " }\n" " ]\n" " }\n" " },\n" " \"Children\": [\n" " {\n" " \"NodeType\": \"38\",\n" " \"Name\": \"PhysiTableScan\",\n" " \"PhysiTableScan\": {\n" " \"OutputDataBlockDesc\": {\n" " \"NodeType\": \"19\",\n" " \"Name\": \"TupleDesc\",\n" " \"TupleDesc\": {\n" " \"DataBlockId\": \"0\",\n" " \"Slots\": [\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"0\",\n" " \"DataType\": {\n" " \"Type\": \"9\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": true\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"1\",\n" " \"DataType\": {\n" " \"Type\": \"4\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"4\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": true\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"2\",\n" " \"DataType\": {\n" " \"Type\": \"8\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"20\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": true\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"3\",\n" " \"DataType\": {\n" " \"Type\": \"5\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": true\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"4\",\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": true\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"5\",\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": true\n" " }\n" " }\n" " ]\n" " }\n" " },\n" " \"ScanCols\": [\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"9\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"ts\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"1\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"ts\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"1\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"4\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"4\"\n" " },\n" " \"AliasName\": \"c1\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"2\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c1\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"2\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"8\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"20\"\n" " },\n" " \"AliasName\": \"c2\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"3\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c2\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"3\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"5\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"c3\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"4\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c3\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"4\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"c4\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"5\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c4\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"5\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"c5\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"6\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c5\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " }\n" " ],\n" " \"TableId\": \"1\",\n" " \"TableType\": \"3\",\n" " \"ScanOrder\": \"1\",\n" " \"ScanCount\": \"1\",\n" " \"ReverseScanCount\": \"0\",\n" " \"ScanFlag\": \"0\",\n" " \"StartKey\": \"-9223372036854775808\",\n" " \"EndKey\": \"9223372036854775807\"\n" " }\n" " }\n" " ],\n" " \"Projections\": [\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"1\",\n" " \"SlotId\": \"0\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"9\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"ts\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"1\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"ts\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"0\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"1\",\n" " \"SlotId\": \"1\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"4\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"4\"\n" " },\n" " \"AliasName\": \"c1\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"2\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c1\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"1\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"1\",\n" " \"SlotId\": \"2\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"8\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"20\"\n" " },\n" " \"AliasName\": \"c2\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"3\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c2\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"2\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"1\",\n" " \"SlotId\": \"3\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"5\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"c3\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"4\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c3\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"3\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"1\",\n" " \"SlotId\": \"4\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"c4\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"5\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c4\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"4\"\n" " }\n" " }\n" " }\n" " },\n" " {\n" " \"NodeType\": \"18\",\n" " \"Name\": \"Target\",\n" " \"Target\": {\n" " \"DataBlockId\": \"1\",\n" " \"SlotId\": \"5\",\n" " \"Expr\": {\n" " \"NodeType\": \"1\",\n" " \"Name\": \"Column\",\n" " \"Column\": {\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"AliasName\": \"c5\",\n" " \"TableId\": \"0\",\n" " \"ColId\": \"6\",\n" " \"ColType\": \"1\",\n" " \"DbName\": \"test\",\n" " \"TableName\": \"t1\",\n" " \"TableAlias\": \"t1\",\n" " \"ColName\": \"c5\",\n" " \"DataBlockId\": \"0\",\n" " \"SlotId\": \"5\"\n" " }\n" " }\n" " }\n" " }\n" " ]\n" " }\n" " },\n" " \"DataSink\": {\n" " \"NodeType\": \"46\",\n" " \"Name\": \"PhysiDispatch\",\n" " \"PhysiDispatch\": {\n" " \"InputDataBlockDesc\": {\n" " \"NodeType\": \"19\",\n" " \"Name\": \"TupleDesc\",\n" " \"TupleDesc\": {\n" " \"DataBlockId\": \"1\",\n" " \"Slots\": [\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"0\",\n" " \"DataType\": {\n" " \"Type\": \"9\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"1\",\n" " \"DataType\": {\n" " \"Type\": \"4\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"4\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"2\",\n" " \"DataType\": {\n" " \"Type\": \"8\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"20\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"3\",\n" " \"DataType\": {\n" " \"Type\": \"5\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"4\",\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " },\n" " {\n" " \"NodeType\": \"20\",\n" " \"Name\": \"SlotDesc\",\n" " \"SlotDesc\": {\n" " \"SlotId\": \"5\",\n" " \"DataType\": {\n" " \"Type\": \"7\",\n" " \"Precision\": \"0\",\n" " \"Scale\": \"0\",\n" " \"Bytes\": \"8\"\n" " },\n" " \"Reserve\": false,\n" " \"Output\": false\n" " }\n" " }\n" " ]\n" " }\n" " }\n" " }\n" " }\n" " }\n" "}"; SExecTaskInfo* pTaskInfo = nullptr; DataSinkHandle sinkHandle = nullptr; SReadHandle handle = {.reader = reinterpret_cast(0x1), .meta = reinterpret_cast(0x1)}; struct SSubplan *plan = NULL; int32_t code = qStringToSubplan(msg, &plan); ASSERT_EQ(code, 0); code = qCreateExecTask(&handle, 2, 1, plan, (void**) &pTaskInfo, &sinkHandle); ASSERT_EQ(code, 0); } #if 0 TEST(testCase, inMem_sort_Test) { SArray* pOrderVal = taosArrayInit(4, sizeof(SOrder)); SOrder o = {.order = TSDB_ORDER_ASC}; o.col.info.colId = 1; o.col.info.type = TSDB_DATA_TYPE_INT; taosArrayPush(pOrderVal, &o); SArray* pExprInfo = taosArrayInit(4, sizeof(SExprInfo)); SExprInfo *exp = static_cast(calloc(1, sizeof(SExprInfo))); exp->base.resSchema = createSchema(TSDB_DATA_TYPE_INT, sizeof(int32_t), 1, "res"); taosArrayPush(pExprInfo, &exp); SExprInfo *exp1 = static_cast(calloc(1, sizeof(SExprInfo))); exp1->base.resSchema = createSchema(TSDB_DATA_TYPE_BINARY, 40, 2, "res1"); taosArrayPush(pExprInfo, &exp1); SOperatorInfo* pOperator = createOrderOperatorInfo(createDummyOperator(10000, 5, 1000, data_asc, 1), pExprInfo, pOrderVal, NULL); bool newgroup = false; SSDataBlock* pRes = pOperator->nextDataFn(pOperator, &newgroup); SColumnInfoData* pCol1 = static_cast(taosArrayGet(pRes->pDataBlock, 0)); SColumnInfoData* pCol2 = static_cast(taosArrayGet(pRes->pDataBlock, 1)); for(int32_t i = 0; i < pRes->info.rows; ++i) { char* p = colDataGetData(pCol2, i); printf("%d: %d, %s\n", i, ((int32_t*)pCol1->pData)[i], (char*)varDataVal(p)); } } #endif typedef struct su { int32_t v; char *c; } su; int32_t cmp(const void* p1, const void* p2) { su* v1 = (su*) p1; su* v2 = (su*) p2; int32_t x1 = *(int32_t*) v1->c; int32_t x2 = *(int32_t*) v2->c; if (x1 == x2) { return 0; } else { return x1 < x2? -1:1; } } #if 0 TEST(testCase, external_sort_Test) { #if 0 su* v = static_cast(calloc(1000000, sizeof(su))); for(int32_t i = 0; i < 1000000; ++i) { v[i].v = rand(); v[i].c = static_cast(malloc(4)); *(int32_t*) v[i].c = i; } qsort(v, 1000000, sizeof(su), cmp); // for(int32_t i = 0; i < 1000; ++i) { // printf("%d ", v[i]); // } // printf("\n"); return; #endif srand(time(NULL)); SArray* pOrderVal = taosArrayInit(4, sizeof(SOrder)); SOrder o = {0}; o.order = TSDB_ORDER_ASC; o.col.info.colId = 1; o.col.info.type = TSDB_DATA_TYPE_INT; taosArrayPush(pOrderVal, &o); SArray* pExprInfo = taosArrayInit(4, sizeof(SExprInfo)); SExprInfo *exp = static_cast(calloc(1, sizeof(SExprInfo))); exp->base.resSchema = createSchema(TSDB_DATA_TYPE_INT, sizeof(int32_t), 1, "res"); taosArrayPush(pExprInfo, &exp); SExprInfo *exp1 = static_cast(calloc(1, sizeof(SExprInfo))); exp1->base.resSchema = createSchema(TSDB_DATA_TYPE_BINARY, 40, 2, "res1"); // taosArrayPush(pExprInfo, &exp1); SOperatorInfo* pOperator = createOrderOperatorInfo(createDummyOperator(10000, 1500, 1000, data_desc, 1), pExprInfo, pOrderVal, NULL); bool newgroup = false; SSDataBlock* pRes = NULL; int32_t total = 1; int64_t s1 = taosGetTimestampUs(); int32_t t = 1; while(1) { int64_t s = taosGetTimestampUs(); pRes = pOperator->nextDataFn(pOperator, &newgroup); int64_t e = taosGetTimestampUs(); if (t++ == 1) { printf("---------------elapsed:%ld\n", e - s); } if (pRes == NULL) { break; } SColumnInfoData* pCol1 = static_cast(taosArrayGet(pRes->pDataBlock, 0)); // SColumnInfoData* pCol2 = static_cast(taosArrayGet(pRes->pDataBlock, 1)); for (int32_t i = 0; i < pRes->info.rows; ++i) { // char* p = colDataGetData(pCol2, i); printf("%d: %d\n", total++, ((int32_t*)pCol1->pData)[i]); // printf("%d: %d, %s\n", total++, ((int32_t*)pCol1->pData)[i], (char*)varDataVal(p)); } } int64_t s2 = taosGetTimestampUs(); printf("total:%ld\n", s2 - s1); pOperator->closeFn(pOperator->info, 2); tfree(exp); tfree(exp1); taosArrayDestroy(pExprInfo); taosArrayDestroy(pOrderVal); } TEST(testCase, sorted_merge_Test) { srand(time(NULL)); SArray* pOrderVal = taosArrayInit(4, sizeof(SOrder)); SOrder o = {0}; o.order = TSDB_ORDER_ASC; o.col.info.colId = 1; o.col.info.type = TSDB_DATA_TYPE_INT; taosArrayPush(pOrderVal, &o); SArray* pExprInfo = taosArrayInit(4, sizeof(SExprInfo)); SExprInfo *exp = static_cast(calloc(1, sizeof(SExprInfo))); exp->base.resSchema = createSchema(TSDB_DATA_TYPE_BIGINT, sizeof(int64_t), 1, "count_result"); exp->base.pColumns = static_cast(calloc(1, sizeof(SColumn))); exp->base.pColumns->flag = TSDB_COL_NORMAL; exp->base.pColumns->info = (SColumnInfo) {.colId = 1, .type = TSDB_DATA_TYPE_INT, .bytes = 4}; exp->base.numOfCols = 1; taosArrayPush(pExprInfo, &exp); SExprInfo *exp1 = static_cast(calloc(1, sizeof(SExprInfo))); exp1->base.resSchema = createSchema(TSDB_DATA_TYPE_BINARY, 40, 2, "res1"); // taosArrayPush(pExprInfo, &exp1); int32_t numOfSources = 10; SOperatorInfo** plist = (SOperatorInfo**) calloc(numOfSources, sizeof(void*)); for(int32_t i = 0; i < numOfSources; ++i) { plist[i] = createDummyOperator(1, 1, 1, data_asc, 1); } SOperatorInfo* pOperator = createSortedMergeOperatorInfo(plist, numOfSources, pExprInfo, pOrderVal, NULL, NULL); bool newgroup = false; SSDataBlock* pRes = NULL; int32_t total = 1; int64_t s1 = taosGetTimestampUs(); int32_t t = 1; while(1) { int64_t s = taosGetTimestampUs(); pRes = pOperator->nextDataFn(pOperator, &newgroup); int64_t e = taosGetTimestampUs(); if (t++ == 1) { printf("---------------elapsed:%ld\n", e - s); } if (pRes == NULL) { break; } SColumnInfoData* pCol1 = static_cast(taosArrayGet(pRes->pDataBlock, 0)); // SColumnInfoData* pCol2 = static_cast(taosArrayGet(pRes->pDataBlock, 1)); for (int32_t i = 0; i < pRes->info.rows; ++i) { // char* p = colDataGetData(pCol2, i); printf("%d: %ld\n", total++, ((int64_t*)pCol1->pData)[i]); // printf("%d: %d, %s\n", total++, ((int32_t*)pCol1->pData)[i], (char*)varDataVal(p)); } } int64_t s2 = taosGetTimestampUs(); printf("total:%ld\n", s2 - s1); pOperator->closeFn(pOperator->info, 2); tfree(exp); tfree(exp1); taosArrayDestroy(pExprInfo); taosArrayDestroy(pOrderVal); } TEST(testCase, time_interval_Operator_Test) { srand(time(NULL)); SArray* pOrderVal = taosArrayInit(4, sizeof(SOrder)); SOrder o = {0}; o.order = TSDB_ORDER_ASC; o.col.info.colId = 1; o.col.info.type = TSDB_DATA_TYPE_INT; taosArrayPush(pOrderVal, &o); SArray* pExprInfo = taosArrayInit(4, sizeof(SExprInfo)); SExprInfo *exp = static_cast(calloc(1, sizeof(SExprInfo))); exp->base.resSchema = createSchema(TSDB_DATA_TYPE_TIMESTAMP, sizeof(int64_t), 1, "ts"); exp->base.pColumns = static_cast(calloc(1, sizeof(SColumn))); exp->base.pColumns->flag = TSDB_COL_NORMAL; exp->base.pColumns->info = (SColumnInfo) {.colId = 1, .type = TSDB_DATA_TYPE_TIMESTAMP, .bytes = 8}; exp->base.numOfCols = 1; taosArrayPush(pExprInfo, &exp); SExprInfo *exp1 = static_cast(calloc(1, sizeof(SExprInfo))); exp1->base.resSchema = createSchema(TSDB_DATA_TYPE_BIGINT, 8, 2, "res1"); exp1->base.pColumns = static_cast(calloc(1, sizeof(SColumn))); exp1->base.pColumns->flag = TSDB_COL_NORMAL; exp1->base.pColumns->info = (SColumnInfo) {.colId = 1, .type = TSDB_DATA_TYPE_INT, .bytes = 4}; exp1->base.numOfCols = 1; taosArrayPush(pExprInfo, &exp1); SOperatorInfo* p = createDummyOperator(1, 1, 2000, data_asc, 2); SExecTaskInfo ti = {0}; SInterval interval = {0}; interval.sliding = interval.interval = 1000; interval.slidingUnit = interval.intervalUnit = 'a'; SOperatorInfo* pOperator = createIntervalOperatorInfo(p, pExprInfo, &interval, &ti); bool newgroup = false; SSDataBlock* pRes = NULL; int32_t total = 1; int64_t s1 = taosGetTimestampUs(); int32_t t = 1; while(1) { int64_t s = taosGetTimestampUs(); pRes = pOperator->nextDataFn(pOperator, &newgroup); int64_t e = taosGetTimestampUs(); if (t++ == 1) { printf("---------------elapsed:%ld\n", e - s); } if (pRes == NULL) { break; } SColumnInfoData* pCol1 = static_cast(taosArrayGet(pRes->pDataBlock, 0)); // SColumnInfoData* pCol2 = static_cast(taosArrayGet(pRes->pDataBlock, 1)); for (int32_t i = 0; i < pRes->info.rows; ++i) { // char* p = colDataGetData(pCol2, i); printf("%d: %ld\n", total++, ((int64_t*)pCol1->pData)[i]); // printf("%d: %d, %s\n", total++, ((int32_t*)pCol1->pData)[i], (char*)varDataVal(p)); } } int64_t s2 = taosGetTimestampUs(); printf("total:%ld\n", s2 - s1); pOperator->closeFn(pOperator->info, 2); tfree(exp); tfree(exp1); taosArrayDestroy(pExprInfo); taosArrayDestroy(pOrderVal); } #endif #pragma GCC diagnostic pop