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TDengine

taosdata / TDengine
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T
TDengine
提交 4bd42a2d 编写于 作者: P plum-lihui
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Merge branch '3.0' of github.com:taosdata/TDengine into 3.0

上级 00357a1c 6eb4b564
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Showing with 1449 addition and 2307 deletion
include/common/tcommon.h
浏览文件 @ 4bd42a2d
......@@ -54,16 +54,13 @@ typedef struct SColumnDataAgg {
} SColumnDataAgg;
typedef struct SDataBlockInfo {
STimeWindow window;
int32_t rows;
int32_t rowSize;
int16_t numOfCols;
int16_t hasVarCol;
union {
int64_t uid;
int64_t blockId;
};
int64_t groupId; // no need to serialize
STimeWindow window;
int32_t rows;
int32_t rowSize;
int16_t numOfCols;
int16_t hasVarCol;
union {int64_t uid; int64_t blockId;};
int64_t groupId; // no need to serialize
} SDataBlockInfo;
typedef struct SSDataBlock {
......@@ -96,6 +93,7 @@ void* tDecodeDataBlock(const void* buf, SSDataBlock* pBlock);
int32_t tEncodeDataBlocks(void** buf, const SArray* blocks);
void* tDecodeDataBlocks(const void* buf, SArray** blocks);
void colDataDestroy(SColumnInfoData* pColData) ;
static FORCE_INLINE void blockDestroyInner(SSDataBlock* pBlock) {
// WARNING: do not use info.numOfCols,
......@@ -103,13 +101,7 @@ static FORCE_INLINE void blockDestroyInner(SSDataBlock* pBlock) {
int32_t numOfOutput = taosArrayGetSize(pBlock->pDataBlock);
for (int32_t i = 0; i < numOfOutput; ++i) {
SColumnInfoData* pColInfoData = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, i);
if (IS_VAR_DATA_TYPE(pColInfoData->info.type)) {
taosMemoryFreeClear(pColInfoData->varmeta.offset);
} else {
taosMemoryFreeClear(pColInfoData->nullbitmap);
}
taosMemoryFreeClear(pColInfoData->pData);
colDataDestroy(pColInfoData);
}
taosArrayDestroy(pBlock->pDataBlock);
......
include/common/tdatablock.h
浏览文件 @ 4bd42a2d
......@@ -101,6 +101,54 @@ static FORCE_INLINE bool colDataIsNull(const SColumnInfoData* pColumnInfoData, u
((IS_VAR_DATA_TYPE((p1_)->info.type)) ? ((p1_)->pData + (p1_)->varmeta.offset[(r_)]) \
: ((p1_)->pData + ((r_) * (p1_)->info.bytes)))
static FORCE_INLINE void colDataAppendNULL(SColumnInfoData* pColumnInfoData, uint32_t currentRow) {
// There is a placehold for each NULL value of binary or nchar type.
if (IS_VAR_DATA_TYPE(pColumnInfoData->info.type)) {
pColumnInfoData->varmeta.offset[currentRow] = -1; // it is a null value of VAR type.
} else {
colDataSetNull_f(pColumnInfoData->nullbitmap, currentRow);
}
pColumnInfoData->hasNull = true;
}
static FORCE_INLINE int32_t colDataAppendInt8(SColumnInfoData* pColumnInfoData, uint32_t currentRow, int8_t* v) {
ASSERT(pColumnInfoData->info.type == TSDB_DATA_TYPE_TINYINT ||
pColumnInfoData->info.type == TSDB_DATA_TYPE_UTINYINT || pColumnInfoData->info.type == TSDB_DATA_TYPE_BOOL);
char* p = pColumnInfoData->pData + pColumnInfoData->info.bytes * currentRow;
*(int8_t*)p = *(int8_t*)v;
}
static FORCE_INLINE int32_t colDataAppendInt16(SColumnInfoData* pColumnInfoData, uint32_t currentRow, int16_t* v) {
ASSERT(pColumnInfoData->info.type == TSDB_DATA_TYPE_SMALLINT || pColumnInfoData->info.type == TSDB_DATA_TYPE_USMALLINT);
char* p = pColumnInfoData->pData + pColumnInfoData->info.bytes * currentRow;
*(int16_t*)p = *(int16_t*)v;
}
static FORCE_INLINE int32_t colDataAppendInt32(SColumnInfoData* pColumnInfoData, uint32_t currentRow, int32_t* v) {
ASSERT(pColumnInfoData->info.type == TSDB_DATA_TYPE_INT || pColumnInfoData->info.type == TSDB_DATA_TYPE_UINT);
char* p = pColumnInfoData->pData + pColumnInfoData->info.bytes * currentRow;
*(int32_t*)p = *(int32_t*)v;
}
static FORCE_INLINE int32_t colDataAppendInt64(SColumnInfoData* pColumnInfoData, uint32_t currentRow, int64_t* v) {
ASSERT(pColumnInfoData->info.type == TSDB_DATA_TYPE_BIGINT || pColumnInfoData->info.type == TSDB_DATA_TYPE_UBIGINT);
char* p = pColumnInfoData->pData + pColumnInfoData->info.bytes * currentRow;
*(int64_t*)p = *(int64_t*)v;
}
static FORCE_INLINE int32_t colDataAppendFloat(SColumnInfoData* pColumnInfoData, uint32_t currentRow, float* v) {
ASSERT(pColumnInfoData->info.type == TSDB_DATA_TYPE_FLOAT);
char* p = pColumnInfoData->pData + pColumnInfoData->info.bytes * currentRow;
*(float*)p = *(float*)v;
}
static FORCE_INLINE int32_t colDataAppendDouble(SColumnInfoData* pColumnInfoData, uint32_t currentRow, double* v) {
ASSERT(pColumnInfoData->info.type == TSDB_DATA_TYPE_DOUBLE);
char* p = pColumnInfoData->pData + pColumnInfoData->info.bytes * currentRow;
*(double*)p = *(double*)v;
}
int32_t colDataAppend(SColumnInfoData* pColumnInfoData, uint32_t currentRow, const char* pData, bool isNull);
int32_t colDataMergeCol(SColumnInfoData* pColumnInfoData, uint32_t numOfRow1, const SColumnInfoData* pSource,
uint32_t numOfRow2);
......
include/common/tmsg.h
浏览文件 @ 4bd42a2d
......@@ -363,7 +363,7 @@ typedef struct {
int8_t createType;
int8_t superUser; // denote if it is a super user or not
char user[TSDB_USER_LEN];
char pass[TSDB_PASSWORD_LEN];
char pass[TSDB_USET_PASSWORD_LEN];
} SCreateUserReq;
int32_t tSerializeSCreateUserReq(void* buf, int32_t bufLen, SCreateUserReq* pReq);
......@@ -373,7 +373,7 @@ typedef struct {
int8_t alterType;
int8_t superUser;
char user[TSDB_USER_LEN];
char pass[TSDB_PASSWORD_LEN];
char pass[TSDB_USET_PASSWORD_LEN];
char dbname[TSDB_DB_FNAME_LEN];
} SAlterUserReq;
......
include/libs/function/function.h
浏览文件 @ 4bd42a2d
......@@ -27,16 +27,22 @@ extern "C" {
struct SqlFunctionCtx;
struct SResultRowEntryInfo;
typedef struct SFunctionNode SFunctionNode;
struct SFunctionNode;
typedef struct SScalarParam SScalarParam;
typedef struct SFuncExecEnv {
int32_t calcMemSize;
} SFuncExecEnv;
typedef bool (*FExecGetEnv)(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
typedef bool (*FExecGetEnv)(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
typedef bool (*FExecInit)(struct SqlFunctionCtx *pCtx, struct SResultRowEntryInfo* pResultCellInfo);
typedef void (*FExecProcess)(struct SqlFunctionCtx *pCtx);
typedef void (*FExecFinalize)(struct SqlFunctionCtx *pCtx);
typedef int32_t (*FScalarExecProcess)(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput);
typedef struct SScalarFuncExecFuncs {
FScalarExecProcess process;
} SScalarFuncExecFuncs;
typedef struct SFuncExecFuncs {
FExecGetEnv getEnv;
......@@ -191,6 +197,7 @@ typedef struct SqlFunctionCtx {
SPoint1 start;
SPoint1 end;
SFuncExecFuncs fpSet;
SScalarFuncExecFuncs sfp;
} SqlFunctionCtx;
enum {
......@@ -203,7 +210,7 @@ enum {
};
typedef struct tExprNode {
uint8_t nodeType;
int32_t nodeType;
union {
struct {
int32_t optr; // binary operator
......@@ -219,7 +226,7 @@ typedef struct tExprNode {
char functionName[FUNCTIONS_NAME_MAX_LENGTH]; // todo refactor
int32_t functionId;
int32_t num;
SFunctionNode *pFunctNode;
struct SFunctionNode *pFunctNode;
// Note that the attribute of pChild is not the parameter of function, it is the columns that involved in the
// calculation instead.
// E.g., Cov(col1, col2), the column information, w.r.t. the col1 and col2, is kept in pChild nodes.
......@@ -227,6 +234,10 @@ typedef struct tExprNode {
// operator and is kept in the attribute of _node.
struct tExprNode **pChild;
} _function;
struct {
struct SNode* pRootNode;
} _optrRoot;
};
} tExprNode;
......@@ -250,25 +261,11 @@ typedef struct SAggFunctionInfo {
int32_t (*dataReqFunc)(SqlFunctionCtx *pCtx, STimeWindow* w, int32_t colId);
} SAggFunctionInfo;
typedef struct SScalarParam {
void *data;
union {
SColumnInfoData *columnData;
void *data;
} orig;
char *bitmap;
bool dataInBlock;
int32_t num;
int32_t type;
int32_t bytes;
} SScalarParam;
typedef struct SScalarFunctionInfo {
char name[FUNCTIONS_NAME_MAX_LENGTH];
int8_t type; // scalar function or aggregation function
uint32_t functionId; // index of scalar function
void (*process)(struct SScalarParam* pOutput, size_t numOfInput, const struct SScalarParam *pInput);
} SScalarFunctionInfo;
struct SScalarParam {
SColumnInfoData *columnData;
SHashObj *pHashFilter;
int32_t numOfRows;
};
typedef struct SMultiFunctionsDesc {
bool stableQuery;
......
include/libs/function/functionMgt.h
浏览文件 @ 4bd42a2d
......@@ -103,13 +103,6 @@ struct SqlFunctionCtx;
struct SResultRowEntryInfo;
struct STimeWindow;
typedef int32_t (*FScalarExecProcess)(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput);
typedef struct SScalarFuncExecFuncs {
FScalarExecProcess process;
} SScalarFuncExecFuncs;
int32_t fmFuncMgtInit();
void fmFuncMgtDestroy();
......
include/libs/scalar/scalar.h
浏览文件 @ 4bd42a2d
......@@ -40,7 +40,7 @@ int32_t scalarGetOperatorParamNum(EOperatorType type);
int32_t scalarGenerateSetFromList(void **data, void *pNode, uint32_t type);
int32_t vectorGetConvertType(int32_t type1, int32_t type2);
int32_t vectorConvertImpl(SScalarParam* pIn, SScalarParam* pOut);
int32_t vectorConvertImpl(const SScalarParam* pIn, SScalarParam* pOut);
int32_t absFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput);
int32_t logFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput);
......
source/client/inc/clientInt.h
浏览文件 @ 4bd42a2d
......@@ -235,7 +235,7 @@ void initMsgHandleFp();
TAOS* taos_connect_internal(const char* ip, const char* user, const char* pass, const char* auth, const char* db,
uint16_t port);
void* doFetchRow(SRequestObj* pRequest);
void* doFetchRow(SRequestObj* pRequest, bool setupOneRowPtr);
int32_t setResultDataPtr(SReqResultInfo* pResultInfo, TAOS_FIELD* pFields, int32_t numOfCols, int32_t numOfRows);
......
source/client/src/clientImpl.c
浏览文件 @ 4bd42a2d
......@@ -545,7 +545,33 @@ TAOS* taos_connect_l(const char* ip, int ipLen, const char* user, int userLen, c
return taos_connect(ipStr, userStr, passStr, dbStr, port);
}
void* doFetchRow(SRequestObj* pRequest) {
static void doSetOneRowPtr(SReqResultInfo* pResultInfo) {
for (int32_t i = 0; i < pResultInfo->numOfCols; ++i) {
SResultColumn* pCol = &pResultInfo->pCol[i];
int32_t type = pResultInfo->fields[i].type;
int32_t bytes = pResultInfo->fields[i].bytes;
if (IS_VAR_DATA_TYPE(type)) {
if (pCol->offset[pResultInfo->current] != -1) {
char* pStart = pResultInfo->pCol[i].offset[pResultInfo->current] + pResultInfo->pCol[i].pData;
pResultInfo->length[i] = varDataLen(pStart);
pResultInfo->row[i] = varDataVal(pStart);
} else {
pResultInfo->row[i] = NULL;
}
} else {
if (!colDataIsNull_f(pCol->nullbitmap, pResultInfo->current)) {
pResultInfo->row[i] = pResultInfo->pCol[i].pData + bytes * pResultInfo->current;
} else {
pResultInfo->row[i] = NULL;
}
}
}
}
void* doFetchRow(SRequestObj* pRequest, bool setupOneRowPtr) {
assert(pRequest != NULL);
SReqResultInfo* pResultInfo = &pRequest->body.resInfo;
......@@ -555,17 +581,20 @@ void* doFetchRow(SRequestObj* pRequest) {
if (pRequest->type == TDMT_VND_QUERY) {
// All data has returned to App already, no need to try again
if (pResultInfo->completed) {
pResultInfo->numOfRows = 0;
return NULL;
}
SReqResultInfo* pResInfo = &pRequest->body.resInfo;
pRequest->code = schedulerFetchRows(pRequest->body.queryJob, (void**)&pResInfo->pData);
if (pRequest->code != TSDB_CODE_SUCCESS) {
pResultInfo->numOfRows = 0;
return NULL;
}
pRequest->code = setQueryResultFromRsp(&pRequest->body.resInfo, (SRetrieveTableRsp*)pResInfo->pData);
if (pRequest->code != TSDB_CODE_SUCCESS) {
pResultInfo->numOfRows = 0;
return NULL;
}
......@@ -633,41 +662,11 @@ void* doFetchRow(SRequestObj* pRequest) {
}
_return:
for (int32_t i = 0; i < pResultInfo->numOfCols; ++i) {
SResultColumn* pCol = &pResultInfo->pCol[i];
int32_t type = pResultInfo->fields[i].type;
int32_t bytes = pResultInfo->fields[i].bytes;
if (IS_VAR_DATA_TYPE(type)) {
if (pCol->offset[pResultInfo->current] != -1) {
char* pStart = pResultInfo->pCol[i].offset[pResultInfo->current] + pResultInfo->pCol[i].pData;
pResultInfo->length[i] = varDataLen(pStart);
pResultInfo->row[i] = varDataVal(pStart);
if (type == TSDB_DATA_TYPE_NCHAR) {
int32_t len = taosUcs4ToMbs((TdUcs4*)varDataVal(pStart), varDataLen(pStart), varDataVal(pResultInfo->convertBuf[i]));
ASSERT(len <= bytes);
pResultInfo->row[i] = varDataVal(pResultInfo->convertBuf[i]);
varDataSetLen(pResultInfo->convertBuf[i], len);
pResultInfo->length[i] = len;
}
} else {
pResultInfo->row[i] = NULL;
}
} else {
if (!colDataIsNull_f(pCol->nullbitmap, pResultInfo->current)) {
pResultInfo->row[i] = pResultInfo->pCol[i].pData + bytes * pResultInfo->current;
} else {
pResultInfo->row[i] = NULL;
}
}
if (setupOneRowPtr) {
doSetOneRowPtr(pResultInfo);
pResultInfo->current += 1;
}
pResultInfo->current += 1;
return pResultInfo->row;
}
......@@ -681,12 +680,6 @@ static int32_t doPrepareResPtr(SReqResultInfo* pResInfo) {
if (pResInfo->row == NULL || pResInfo->pCol == NULL || pResInfo->length == NULL || pResInfo->convertBuf == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
}
for(int32_t i = 0; i < pResInfo->numOfCols; ++i) {
if(pResInfo->fields[i].type == TSDB_DATA_TYPE_NCHAR) {
pResInfo->convertBuf[i] = taosMemoryCalloc(1, NCHAR_WIDTH_TO_BYTES(pResInfo->fields[i].bytes));
}
}
}
return TSDB_CODE_SUCCESS;
......@@ -723,6 +716,35 @@ int32_t setResultDataPtr(SReqResultInfo* pResultInfo, TAOS_FIELD* pFields, int32
pStart += colLength[i];
}
for (int32_t i = 0; i < numOfCols; ++i) {
int32_t type = pResultInfo->fields[i].type;
int32_t bytes = pResultInfo->fields[i].bytes;
if (type == TSDB_DATA_TYPE_NCHAR) {
char* p = taosMemoryRealloc(pResultInfo->convertBuf[i], colLength[i]);
if (p == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
}
pResultInfo->convertBuf[i] = p;
SResultColumn* pCol = &pResultInfo->pCol[i];
for (int32_t j = 0; j < numOfRows; ++j) {
if (pCol->offset[j] != -1) {
pStart = pCol->offset[j] + pCol->pData;
int32_t len = taosUcs4ToMbs((TdUcs4*)varDataVal(pStart), varDataLen(pStart), varDataVal(p));
ASSERT(len <= bytes);
varDataSetLen(p, len);
pCol->offset[j] = (p - pResultInfo->convertBuf[i]);
p += (len + VARSTR_HEADER_SIZE);
}
}
pResultInfo->pCol[i].pData = pResultInfo->convertBuf[i];
}
}
return TSDB_CODE_SUCCESS;
}
......
source/client/src/clientMain.c
浏览文件 @ 4bd42a2d
......@@ -138,20 +138,20 @@ TAOS_RES *taos_query(TAOS *taos, const char *sql) {
return taos_query_l(taos, sql, (int32_t) strlen(sql));
}
TAOS_ROW taos_fetch_row(TAOS_RES *pRes) {
if (pRes == NULL) {
TAOS_ROW taos_fetch_row(TAOS_RES *res) {
if (res == NULL) {
return NULL;
}
SRequestObj *pRequest = (SRequestObj *) pRes;
SRequestObj *pRequest = (SRequestObj *) res;
if (pRequest->type == TSDB_SQL_RETRIEVE_EMPTY_RESULT ||
pRequest->type == TSDB_SQL_INSERT ||
pRequest->code != TSDB_CODE_SUCCESS ||
taos_num_fields(pRes) == 0) {
taos_num_fields(res) == 0) {
return NULL;
}
return doFetchRow(pRequest);
return doFetchRow(pRequest, true);
}
int taos_print_row(char *str, TAOS_ROW row, TAOS_FIELD *fields, int num_fields) {
......@@ -246,6 +246,7 @@ int* taos_fetch_lengths(TAOS_RES *res) {
return ((SRequestObj*) res)->body.resInfo.length;
}
// todo intergrate with tDataTypes
const char *taos_data_type(int type) {
switch (type) {
case TSDB_DATA_TYPE_NULL: return "TSDB_DATA_TYPE_NULL";
......@@ -256,9 +257,11 @@ const char *taos_data_type(int type) {
case TSDB_DATA_TYPE_BIGINT: return "TSDB_DATA_TYPE_BIGINT";
case TSDB_DATA_TYPE_FLOAT: return "TSDB_DATA_TYPE_FLOAT";
case TSDB_DATA_TYPE_DOUBLE: return "TSDB_DATA_TYPE_DOUBLE";
case TSDB_DATA_TYPE_BINARY: return "TSDB_DATA_TYPE_BINARY";
case TSDB_DATA_TYPE_VARCHAR: return "TSDB_DATA_TYPE_VARCHAR";
// case TSDB_DATA_TYPE_BINARY: return "TSDB_DATA_TYPE_VARCHAR";
case TSDB_DATA_TYPE_TIMESTAMP: return "TSDB_DATA_TYPE_TIMESTAMP";
case TSDB_DATA_TYPE_NCHAR: return "TSDB_DATA_TYPE_NCHAR";
case TSDB_DATA_TYPE_JSON: return "TSDB_DATA_TYPE_JSON";
default: return "UNKNOWN";
}
}
......@@ -316,11 +319,37 @@ void taos_stop_query(TAOS_RES *res) {
}
bool taos_is_null(TAOS_RES *res, int32_t row, int32_t col) {
return false;
SRequestObj* pRequestObj = res;
SReqResultInfo* pResultInfo = &pRequestObj->body.resInfo;
if (col >= pResultInfo->numOfCols || col < 0 || row >= pResultInfo->numOfRows || row < 0) {
return true;
}
SResultColumn* pCol = &pRequestObj->body.resInfo.pCol[col];
return colDataIsNull_f(pCol->nullbitmap, row);
}
int taos_fetch_block(TAOS_RES *res, TAOS_ROW *rows) {
return 0;
if (res == NULL) {
return 0;
}
SRequestObj *pRequest = (SRequestObj *) res;
if (pRequest->type == TSDB_SQL_RETRIEVE_EMPTY_RESULT ||
pRequest->type == TSDB_SQL_INSERT ||
pRequest->code != TSDB_CODE_SUCCESS ||
taos_num_fields(res) == 0) {
return 0;
}
doFetchRow(pRequest, false);
// TODO refactor
SReqResultInfo* pResultInfo = &pRequest->body.resInfo;
pResultInfo->current = pResultInfo->numOfRows;
*rows = pResultInfo->row;
return pResultInfo->numOfRows;
}
int taos_validate_sql(TAOS *taos, const char *sql) {
......
source/common/src/tdatablock.c
浏览文件 @ 4bd42a2d
......@@ -1241,6 +1241,16 @@ size_t blockDataGetCapacityInRow(const SSDataBlock* pBlock, size_t pageSize) {
return pageSize / (blockDataGetSerialRowSize(pBlock) + blockDataGetSerialMetaSize(pBlock));
}
void colDataDestroy(SColumnInfoData* pColData) {
if (IS_VAR_DATA_TYPE(pColData->info.type)) {
taosMemoryFree(pColData->varmeta.offset);
} else {
taosMemoryFree(pColData->nullbitmap);
}
taosMemoryFree(pColData->pData);
}
int32_t tEncodeDataBlock(void** buf, const SSDataBlock* pBlock) {
int64_t tbUid = pBlock->info.uid;
int16_t numOfCols = pBlock->info.numOfCols;
......
source/dnode/mnode/impl/src/mndUser.c
浏览文件 @ 4bd42a2d
......@@ -87,12 +87,6 @@ static int32_t mndCreateDefaultUsers(SMnode *pMnode) {
return -1;
}
#if 0
if (mndCreateDefaultUser(pMnode, TSDB_DEFAULT_USER, "_" TSDB_DEFAULT_USER, TSDB_DEFAULT_PASS) != 0) {
return -1;
}
#endif
return 0;
}
......
source/libs/executor/inc/executorimpl.h
浏览文件 @ 4bd42a2d
......@@ -469,7 +469,7 @@ typedef struct SOptrBasicInfo {
int32_t* rowCellInfoOffset; // offset value for each row result cell info
SqlFunctionCtx* pCtx;
SSDataBlock* pRes;
int32_t capacity;
int32_t capacity; // TODO remove it
} SOptrBasicInfo;
//TODO move the resultrowsiz together with SOptrBasicInfo:rowCellInfoOffset
......
source/libs/executor/src/executorimpl.c
浏览文件 @ 4bd42a2d
......@@ -1246,17 +1246,40 @@ static void doAggregateImpl(SOperatorInfo* pOperator, TSKEY startTs, SqlFunction
}
}
static void projectApplyFunctions(SSDataBlock* pResult, SqlFunctionCtx *pCtx, int32_t numOfOutput) {
static void projectApplyFunctions(SExprInfo* pExpr, SSDataBlock* pResult, SSDataBlock* pSrcBlock, SqlFunctionCtx *pCtx, int32_t numOfOutput) {
for (int32_t k = 0; k < numOfOutput; ++k) {
if (pCtx[k].fpSet.init == NULL) { // it is a project query
if (pExpr[k].pExpr->nodeType == QUERY_NODE_COLUMN) { // it is a project query
SColumnInfoData* pColInfoData = taosArrayGet(pResult->pDataBlock, k);
colDataAssign(pColInfoData, pCtx[k].input.pData[0], pCtx[k].input.numOfRows);
} else { // TODO: arithmetic and other process.
pResult->info.rows = pCtx[0].input.numOfRows;
} else if (pExpr[k].pExpr->nodeType == QUERY_NODE_OPERATOR) {
SArray* pBlockList = taosArrayInit(4, POINTER_BYTES);
taosArrayPush(pBlockList, &pSrcBlock);
SScalarParam dest = {0};
dest.columnData = taosArrayGet(pResult->pDataBlock, k);
scalarCalculate(pExpr[k].pExpr->_optrRoot.pRootNode, pBlockList, &dest);
pResult->info.rows = dest.numOfRows;
taosArrayDestroy(pBlockList);
} else if (pExpr[k].pExpr->nodeType == QUERY_NODE_FUNCTION) {
ASSERT(!fmIsAggFunc(pCtx->functionId));
SScalarParam p = {.numOfRows = pSrcBlock->info.rows};
int32_t slotId = pExpr[k].base.pParam[0].pCol->slotId;
p.columnData = taosArrayGet(pSrcBlock->pDataBlock, slotId);
SScalarParam dest = {0};
dest.columnData = taosArrayGet(pResult->pDataBlock, k);
pCtx[k].sfp.process(&p, 1, &dest);
pResult->info.rows = dest.numOfRows;
} else {
ASSERT(0);
}
}
pResult->info.rows = pCtx[0].input.numOfRows;
}
void doTimeWindowInterpolation(SOperatorInfo* pOperator, SOptrBasicInfo* pInfo, SArray* pDataBlock, TSKEY prevTs,
......@@ -2013,107 +2036,6 @@ static int32_t setCtxTagColumnInfo(SqlFunctionCtx *pCtx, int32_t numOfOutput) {
return TSDB_CODE_SUCCESS;
}
static SqlFunctionCtx* createSqlFunctionCtx(STaskRuntimeEnv* pRuntimeEnv, SExprInfo* pExpr, int32_t numOfOutput,
int32_t** rowCellInfoOffset) {
STaskAttr* pQueryAttr = pRuntimeEnv->pQueryAttr;
SqlFunctionCtx * pFuncCtx = (SqlFunctionCtx *)taosMemoryCalloc(numOfOutput, sizeof(SqlFunctionCtx));
if (pFuncCtx == NULL) {
return NULL;
}
*rowCellInfoOffset = taosMemoryCalloc(numOfOutput, sizeof(int32_t));
if (*rowCellInfoOffset == 0) {
taosMemoryFreeClear(pFuncCtx);
return NULL;
}
for (int32_t i = 0; i < numOfOutput; ++i) {
SExprBasicInfo *pFunct = &pExpr[i].base;
SqlFunctionCtx* pCtx = &pFuncCtx[i];
#if 0
SColIndex *pIndex = &pFunct->colInfo;
if (TSDB_COL_REQ_NULL(pIndex->flag)) {
pCtx->requireNull = true;
pIndex->flag &= ~(TSDB_COL_NULL);
} else {
pCtx->requireNull = false;
}
#endif
// pCtx->inputBytes = pFunct->colBytes;
// pCtx->inputType = pFunct->colType;
pCtx->ptsOutputBuf = NULL;
pCtx->resDataInfo.bytes = pFunct->resSchema.bytes;
pCtx->resDataInfo.type = pFunct->resSchema.type;
pCtx->order = pQueryAttr->order.order;
// pCtx->functionId = pFunct->functionId;
pCtx->stableQuery = pQueryAttr->stableQuery;
// pCtx->resDataInfo.interBufSize = pFunct->interBytes;
pCtx->start.key = INT64_MIN;
pCtx->end.key = INT64_MIN;
pCtx->numOfParams = pFunct->numOfParams;
for (int32_t j = 0; j < pCtx->numOfParams; ++j) {
int16_t type = pFunct->pParam[j].param.nType;
int16_t bytes = pFunct->pParam[j].param.nType;
if (type == TSDB_DATA_TYPE_BINARY || type == TSDB_DATA_TYPE_NCHAR) {
// taosVariantCreateFromBinary(&pCtx->param[j], pFunct->param[j].pz, bytes, type);
} else {
// taosVariantCreateFromBinary(&pCtx->param[j], (char *)&pFunct->param[j].i, bytes, type);
}
}
// set the order information for top/bottom query
int32_t functionId = pCtx->functionId;
if (functionId == FUNCTION_TOP || functionId == FUNCTION_BOTTOM || functionId == FUNCTION_DIFF) {
int32_t f = getExprFunctionId(&pExpr[0]);
assert(f == FUNCTION_TS || f == FUNCTION_TS_DUMMY);
pCtx->param[2].i = pQueryAttr->order.order;
pCtx->param[2].nType = TSDB_DATA_TYPE_BIGINT;
pCtx->param[3].i = functionId;
pCtx->param[3].nType = TSDB_DATA_TYPE_BIGINT;
pCtx->param[1].i = pQueryAttr->order.col.colId;
} else if (functionId == FUNCTION_INTERP) {
pCtx->param[2].i = (int8_t)pQueryAttr->fillType;
if (pQueryAttr->fillVal != NULL) {
if (isNull((const char *)&pQueryAttr->fillVal[i], pCtx->inputType)) {
pCtx->param[1].nType = TSDB_DATA_TYPE_NULL;
} else { // todo refactor, taosVariantCreateFromBinary should handle the NULL value
if (pCtx->inputType != TSDB_DATA_TYPE_BINARY && pCtx->inputType != TSDB_DATA_TYPE_NCHAR) {
taosVariantCreateFromBinary(&pCtx->param[1], (char *)&pQueryAttr->fillVal[i], pCtx->inputBytes, pCtx->inputType);
}
}
}
} else if (functionId == FUNCTION_TS_COMP) {
pCtx->param[0].i = pQueryAttr->vgId; //TODO this should be the parameter from client
pCtx->param[0].nType = TSDB_DATA_TYPE_BIGINT;
} else if (functionId == FUNCTION_TWA) {
pCtx->param[1].i = pQueryAttr->window.skey;
pCtx->param[1].nType = TSDB_DATA_TYPE_BIGINT;
pCtx->param[2].i = pQueryAttr->window.ekey;
pCtx->param[2].nType = TSDB_DATA_TYPE_BIGINT;
} else if (functionId == FUNCTION_ARITHM) {
// pCtx->param[1].pz = (char*) getScalarFuncSupport(pRuntimeEnv->scalarSup, i);
}
}
// for(int32_t i = 1; i < numOfOutput; ++i) {
// (*rowCellInfoOffset)[i] = (int32_t)((*rowCellInfoOffset)[i - 1] + sizeof(SResultRowEntryInfo) + pExpr[i - 1].base.interBytes);
// }
setCtxTagColumnInfo(pFuncCtx, numOfOutput);
return pFuncCtx;
}
static SqlFunctionCtx* createSqlFunctionCtx_rv(SExprInfo* pExprInfo, int32_t numOfOutput, int32_t** rowCellInfoOffset) {
SqlFunctionCtx * pFuncCtx = (SqlFunctionCtx *)taosMemoryCalloc(numOfOutput, sizeof(SqlFunctionCtx));
if (pFuncCtx == NULL) {
......@@ -2132,15 +2054,22 @@ static SqlFunctionCtx* createSqlFunctionCtx_rv(SExprInfo* pExprInfo, int32_t num
SExprBasicInfo *pFunct = &pExpr->base;
SqlFunctionCtx* pCtx = &pFuncCtx[i];
if (pExpr->pExpr->_function.pFunctNode != NULL) {
pCtx->functionId = -1;
if (pExpr->pExpr->nodeType == QUERY_NODE_FUNCTION) {
SFuncExecEnv env = {0};
pCtx->functionId = pExpr->pExpr->_function.pFunctNode->funcId;
fmGetFuncExecFuncs(pCtx->functionId, &pCtx->fpSet);
pCtx->fpSet.getEnv(pExpr->pExpr->_function.pFunctNode, &env);
if (fmIsAggFunc(pCtx->functionId)) {
fmGetFuncExecFuncs(pCtx->functionId, &pCtx->fpSet);
pCtx->fpSet.getEnv(pExpr->pExpr->_function.pFunctNode, &env);
} else {
fmGetScalarFuncExecFuncs(pCtx->functionId, &pCtx->sfp);
}
pCtx->resDataInfo.interBufSize = env.calcMemSize;
} else {
pCtx->functionId = -1;
} else if (pExpr->pExpr->nodeType == QUERY_NODE_COLUMN) {
} else if (pExpr->pExpr->nodeType == QUERY_NODE_OPERATOR) {
}
pCtx->input.numOfInputCols = pFunct->numOfParams;
......@@ -5578,11 +5507,11 @@ EDealRes getDBNameFromConditionWalker(SNode* pNode, void* pContext) {
SOperatorNode *node = (SOperatorNode *)pNode;
if (OP_TYPE_EQUAL == node->opType) {
*(int32_t *)pContext = 1;
*(int32_t *)pContext = 1;
return DEAL_RES_CONTINUE;
}
*(int32_t *)pContext = 0;
*(int32_t *)pContext = 0;
return DEAL_RES_IGNORE_CHILD;
}
......@@ -5590,14 +5519,14 @@ EDealRes getDBNameFromConditionWalker(SNode* pNode, void* pContext) {
if (1 != *(int32_t *)pContext) {
return DEAL_RES_CONTINUE;
}
SColumnNode *node = (SColumnNode *)pNode;
if (TSDB_INS_USER_STABLES_DBNAME_COLID == node->colId) {
*(int32_t *)pContext = 2;
*(int32_t *)pContext = 2;
return DEAL_RES_CONTINUE;
}
*(int32_t *)pContext = 0;
*(int32_t *)pContext = 0;
return DEAL_RES_CONTINUE;
}
case QUERY_NODE_VALUE: {
......@@ -5607,7 +5536,7 @@ EDealRes getDBNameFromConditionWalker(SNode* pNode, void* pContext) {
SValueNode *node = (SValueNode *)pNode;
char *dbName = nodesGetValueFromNode(node);
strncpy(pContext, varDataVal(dbName), varDataLen(dbName));
strncpy(pContext, varDataVal(dbName), varDataLen(dbName));
*((char *)pContext + varDataLen(dbName)) = 0;
return DEAL_RES_ERROR; // stop walk
}
......@@ -6654,7 +6583,6 @@ static SSDataBlock* doProjectOperation(SOperatorInfo *pOperator, bool* newgroup)
blockDataCleanup(pRes);
if (pProjectInfo->existDataBlock) { // TODO refactor
// STableQueryInfo* pTableQueryInfo = pRuntimeEnv->current;
SSDataBlock* pBlock = pProjectInfo->existDataBlock;
pProjectInfo->existDataBlock = NULL;
*newgroup = true;
......@@ -6668,9 +6596,7 @@ static SSDataBlock* doProjectOperation(SOperatorInfo *pOperator, bool* newgroup)
setInputDataBlock(pOperator, pInfo->pCtx, pBlock, TSDB_ORDER_ASC);
blockDataEnsureCapacity(pInfo->pRes, pBlock->info.rows);
projectApplyFunctions(pInfo->pRes, pInfo->pCtx, pOperator->numOfOutput);
pRes->info.rows = getNumOfResult(pInfo->pCtx, pOperator->numOfOutput, NULL);
projectApplyFunctions(pOperator->pExpr, pInfo->pRes, pBlock, pInfo->pCtx, pOperator->numOfOutput);
if (pRes->info.rows >= pProjectInfo->binfo.capacity*0.8) {
copyTsColoum(pRes, pInfo->pCtx, pOperator->numOfOutput);
resetResultRowEntryResult(pInfo->pCtx, pOperator->numOfOutput);
......@@ -6713,15 +6639,15 @@ static SSDataBlock* doProjectOperation(SOperatorInfo *pOperator, bool* newgroup)
// the pDataBlock are always the same one, no need to call this again
setInputDataBlock(pOperator, pInfo->pCtx, pBlock, TSDB_ORDER_ASC);
updateOutputBuf(pInfo, &pInfo->capacity, pBlock->info.rows);
blockDataEnsureCapacity(pInfo->pRes, pInfo->pRes->info.rows + pBlock->info.rows);
projectApplyFunctions(pInfo->pRes, pInfo->pCtx, pOperator->numOfOutput);
if (pRes->info.rows >= pProjectInfo->threshold) {
projectApplyFunctions(pOperator->pExpr, pInfo->pRes, pBlock, pInfo->pCtx, pOperator->numOfOutput);
if (pRes->info.rows >= pOperator->resultInfo.threshold) {
break;
}
}
copyTsColoum(pRes, pInfo->pCtx, pOperator->numOfOutput);
// copyTsColoum(pRes, pInfo->pCtx, pOperator->numOfOutput);
return (pInfo->pRes->info.rows > 0)? pInfo->pRes:NULL;
}
......@@ -7811,7 +7737,7 @@ SOperatorInfo* createIntervalOperatorInfo(SOperatorInfo* downstream, SExprInfo*
SOperatorInfo* createAllTimeIntervalOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream, SExprInfo* pExpr, int32_t numOfOutput) {
STableIntervalOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(STableIntervalOperatorInfo));
pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pRes = createOutputBuf(pExpr, numOfOutput, pResultInfo->capacity);
initResultRowInfo(&pInfo->binfo.resultRowInfo, 8);
......@@ -7836,7 +7762,7 @@ SOperatorInfo* createStatewindowOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOper
SStateWindowOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStateWindowOperatorInfo));
pInfo->colIndex = -1;
pInfo->reptScan = false;
pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pRes = createOutputBuf(pExpr, numOfOutput, pResultInfo->capacity);
initResultRowInfo(&pInfo->binfo.resultRowInfo, 8);
......@@ -7901,7 +7827,7 @@ SOperatorInfo* createSessionAggOperatorInfo(SOperatorInfo* downstream, SExprInfo
SOperatorInfo* createMultiTableTimeIntervalOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream, SExprInfo* pExpr, int32_t numOfOutput) {
STableIntervalOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(STableIntervalOperatorInfo));
pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pRes = createOutputBuf(pExpr, numOfOutput, pResultInfo->capacity);
initResultRowInfo(&pInfo->binfo.resultRowInfo, 8);
......@@ -7925,7 +7851,7 @@ SOperatorInfo* createMultiTableTimeIntervalOperatorInfo(STaskRuntimeEnv* pRuntim
SOperatorInfo* createAllMultiTableTimeIntervalOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream, SExprInfo* pExpr, int32_t numOfOutput) {
STableIntervalOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(STableIntervalOperatorInfo));
pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pCtx = createSqlFunctionCtx(pRuntimeEnv, pExpr, numOfOutput, &pInfo->binfo.rowCellInfoOffset);
// pInfo->binfo.pRes = createOutputBuf(pExpr, numOfOutput, pResultInfo->capacity);
initResultRowInfo(&pInfo->binfo.resultRowInfo, 8);
......@@ -8533,16 +8459,18 @@ SExprInfo* createExprInfo(SNodeList* pNodeList, SNodeList* pGroupKeys, int32_t*
// it is a project query, or group by column
if (nodeType(pTargetNode->pExpr) == QUERY_NODE_COLUMN) {
pExp->pExpr->nodeType = QUERY_NODE_COLUMN;
SColumnNode* pColNode = (SColumnNode*) pTargetNode->pExpr;
SDataType* pType = &pColNode->node.resType;
pExp->base.resSchema = createResSchema(pType->type, pType->bytes, pTargetNode->slotId, pType->scale, pType->precision, pColNode->colName);
pCol->slotId = pColNode->slotId;
pCol->slotId = pColNode->slotId; // TODO refactor
pCol->bytes = pType->bytes;
pCol->type = pType->type;
pCol->scale = pType->scale;
pCol->precision = pType->precision;
} else {
} else if (nodeType(pTargetNode->pExpr) == QUERY_NODE_FUNCTION) {
pExp->pExpr->nodeType = QUERY_NODE_FUNCTION;
SFunctionNode* pFuncNode = (SFunctionNode*)pTargetNode->pExpr;
SDataType* pType = &pFuncNode->node.resType;
......@@ -8556,7 +8484,7 @@ SExprInfo* createExprInfo(SNodeList* pNodeList, SNodeList* pGroupKeys, int32_t*
int32_t numOfParam = LIST_LENGTH(pFuncNode->pParameterList);
for (int32_t j = 0; j < numOfParam; ++j) {
SNode* p1 = nodesListGetNode(pFuncNode->pParameterList, j);
SColumnNode* pcn = (SColumnNode*)p1;
SColumnNode* pcn = (SColumnNode*)p1; // TODO refactor
pCol->slotId = pcn->slotId;
pCol->bytes = pcn->node.resType.bytes;
......@@ -8565,6 +8493,22 @@ SExprInfo* createExprInfo(SNodeList* pNodeList, SNodeList* pGroupKeys, int32_t*
pCol->precision = pcn->node.resType.precision;
pCol->dataBlockId = pcn->dataBlockId;
}
} else if (nodeType(pTargetNode->pExpr) == QUERY_NODE_OPERATOR) {
pExp->pExpr->nodeType = QUERY_NODE_OPERATOR;
SOperatorNode* pNode = (SOperatorNode*) pTargetNode->pExpr;
SDataType* pType = &pNode->node.resType;
pExp->base.resSchema = createResSchema(pType->type, pType->bytes, pTargetNode->slotId, pType->scale, pType->precision, pNode->node.aliasName);
pExp->pExpr->_optrRoot.pRootNode = pTargetNode->pExpr;
pCol->slotId = pTargetNode->slotId; // TODO refactor
pCol->bytes = pType->bytes;
pCol->type = pType->type;
pCol->scale = pType->scale;
pCol->precision = pType->precision;
} else {
ASSERT(0);
}
}
......@@ -8627,7 +8571,7 @@ SOperatorInfo* doCreateOperatorTreeNode(SPhysiNode* pPhyNode, SExecTaskInfo* pTa
SArray* colList = extractScanColumnId(pScanNode->pScanCols);
SOperatorInfo* pOperator = createSysTableScanOperatorInfo(pHandle->meta, pResBlock, &pScanNode->tableName,
pScanNode->node.pConditions, pSysScanPhyNode->mgmtEpSet,
pScanNode->node.pConditions, pSysScanPhyNode->mgmtEpSet,
colList, pTaskInfo, pSysScanPhyNode->showRewrite, pSysScanPhyNode->accountId);
return pOperator;
} else {
......
source/libs/function/inc/builtinsimpl.h
浏览文件 @ 4bd42a2d
......@@ -25,23 +25,23 @@ extern "C" {
bool functionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo* pResultInfo);
void functionFinalize(SqlFunctionCtx *pCtx);
bool getCountFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool getCountFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
void countFunction(SqlFunctionCtx *pCtx);
bool getSumFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool getSumFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
void sumFunction(SqlFunctionCtx *pCtx);
bool minFunctionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo* pResultInfo);
bool maxFunctionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo* pResultInfo);
bool getMinmaxFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool getMinmaxFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
void minFunction(SqlFunctionCtx* pCtx);
void maxFunction(SqlFunctionCtx *pCtx);
bool getStddevFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool getStddevFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
void stddevFunction(SqlFunctionCtx* pCtx);
void stddevFinalize(SqlFunctionCtx* pCtx);
bool getFirstLastFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool getFirstLastFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
void firstFunction(SqlFunctionCtx *pCtx);
void lastFunction(SqlFunctionCtx *pCtx);
......
source/libs/function/src/builtins.c
浏览文件 @ 4bd42a2d
......@@ -331,6 +331,14 @@ int32_t stubCheckAndGetResultType(SFunctionNode* pFunc) {
case FUNCTION_TYPE_CONCAT:
// todo
break;
case FUNCTION_TYPE_ABS: {
SColumnNode* pParam = nodesListGetNode(pFunc->pParameterList, 0);
int32_t paraType = pParam->node.resType.type;
pFunc->node.resType = (SDataType) { .bytes = tDataTypes[paraType].bytes, .type = paraType };
break;
}
default:
ASSERT(0); // to found the fault ASAP.
}
......
source/libs/function/src/taggfunction.c
浏览文件 @ 4bd42a2d
......@@ -3078,8 +3078,8 @@ static void arithmetic_function(SqlFunctionCtx *pCtx) {
GET_RES_INFO(pCtx)->numOfRes += pCtx->size;
//SScalarFunctionSupport *pSup = (SScalarFunctionSupport *)pCtx->param[1].pz;
SScalarParam output = {0};
output.data = pCtx->pOutput;
// SScalarParam output = {0};
// output.data = pCtx->pOutput;
//evaluateExprNodeTree(pSup->pExprInfo->pExpr, pCtx->size, &output, pSup, getArithColumnData);
}
......
source/libs/scalar/inc/sclInt.h
浏览文件 @ 4bd42a2d
......@@ -43,10 +43,12 @@ typedef struct SScalarCtx {
#define SCL_RET(c) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { terrno = _code; } return _code; } while (0)
#define SCL_ERR_JRET(c) do { code = c; if (code != TSDB_CODE_SUCCESS) { terrno = code; goto _return; } } while (0)
int32_t doConvertDataType(SValueNode* pValueNode, SScalarParam* out);
SColumnInfoData* createColumnInfoData(SDataType* pType, int32_t numOfRows);
#define GET_PARAM_TYPE(_c) ((_c)->columnData->info.type)
#define GET_PARAM_BYTES(_c) ((_c)->pColumnInfoData->info.bytes)
int32_t sclMoveParamListData(SScalarParam *params, int32_t listNum, int32_t idx);
bool sclIsNull(SScalarParam* param, int32_t idx);
void sclSetNull(SScalarParam* param, int32_t idx);
void sclFreeParam(SScalarParam *param);
#ifdef __cplusplus
......
source/libs/scalar/inc/sclfunc.h
浏览文件 @ 4bd42a2d
......@@ -22,19 +22,7 @@ extern "C" {
#include "function.h"
#include "scalar.h"
typedef struct SScalarFunctionSupport {
struct SExprInfo *pExprInfo;
int32_t numOfCols;
SColumnInfo *colList;
void *exprList; // client side used
int32_t offset;
char** data;
} SScalarFunctionSupport;
extern struct SScalarFunctionInfo scalarFunc[8];
int32_t evaluateExprNodeTree(tExprNode* pExprs, int32_t numOfRows, SScalarParam* pOutput,
void* param, char* (*getSourceDataBlock)(void*, const char*, int32_t));
#ifdef __cplusplus
......
source/libs/scalar/inc/sclvector.h
浏览文件 @ 4bd42a2d
......@@ -20,10 +20,66 @@
extern "C" {
#endif
#include "sclfunc.h"
typedef double (*_getDoubleValue_fn_t)(void *src, int32_t index);
typedef double (*_mathFunc)(double, double, bool *);
static FORCE_INLINE double getVectorDoubleValue_TINYINT(void *src, int32_t index) {
return (double)*((int8_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_UTINYINT(void *src, int32_t index) {
return (double)*((uint8_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_SMALLINT(void *src, int32_t index) {
return (double)*((int16_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_USMALLINT(void *src, int32_t index) {
return (double)*((uint16_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_INT(void *src, int32_t index) {
return (double)*((int32_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_UINT(void *src, int32_t index) {
return (double)*((uint32_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_BIGINT(void *src, int32_t index) {
return (double)*((int64_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_UBIGINT(void *src, int32_t index) {
return (double)*((uint64_t *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_FLOAT(void *src, int32_t index) {
return (double)*((float *)src + index);
}
static FORCE_INLINE double getVectorDoubleValue_DOUBLE(void *src, int32_t index) {
return (double)*((double *)src + index);
}
static FORCE_INLINE _getDoubleValue_fn_t getVectorDoubleValueFn(int32_t srcType) {
_getDoubleValue_fn_t p = NULL;
if (srcType == TSDB_DATA_TYPE_TINYINT) {
p = getVectorDoubleValue_TINYINT;
} else if (srcType == TSDB_DATA_TYPE_UTINYINT) {
p = getVectorDoubleValue_UTINYINT;
} else if (srcType == TSDB_DATA_TYPE_SMALLINT) {
p = getVectorDoubleValue_SMALLINT;
} else if (srcType == TSDB_DATA_TYPE_USMALLINT) {
p = getVectorDoubleValue_USMALLINT;
} else if (srcType == TSDB_DATA_TYPE_INT) {
p = getVectorDoubleValue_INT;
} else if (srcType == TSDB_DATA_TYPE_UINT) {
p = getVectorDoubleValue_UINT;
} else if (srcType == TSDB_DATA_TYPE_BIGINT) {
p = getVectorDoubleValue_BIGINT;
} else if (srcType == TSDB_DATA_TYPE_UBIGINT) {
p = getVectorDoubleValue_UBIGINT;
} else if (srcType == TSDB_DATA_TYPE_FLOAT) {
p = getVectorDoubleValue_FLOAT;
} else if (srcType == TSDB_DATA_TYPE_DOUBLE) {
p = getVectorDoubleValue_DOUBLE;
} else {
assert(0);
}
return p;
}
typedef void (*_bufConverteFunc)(char *buf, SScalarParam* pOut, int32_t outType);
typedef void (*_bin_scalar_fn_t)(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *output, int32_t order);
......
source/libs/scalar/src/filter.c
浏览文件 @ 4bd42a2d
......@@ -318,7 +318,7 @@ static FORCE_INLINE SFilterRangeNode* filterNewRange(SFilterRangeCtx *ctx, SFilt
r->prev = NULL;
r->next = NULL;
} else {
r = taosMemoryCalloc(1, sizeof(SFilterRangeNode));
r = taosMemoryCalloc(1, sizeof(SFilterRangeNode));
}
FILTER_COPY_RA(&r->ra, ra);
......@@ -1021,26 +1021,21 @@ int32_t fltAddGroupUnitFromNode(SFilterInfo *info, SNode* tree, SArray *group) {
if (node->opType == OP_TYPE_IN && (!IS_VAR_DATA_TYPE(type))) {
SNodeListNode *listNode = (SNodeListNode *)node->pRight;
SListCell *cell = listNode->pNodeList->pHead;
SScalarParam in = {.num = 1}, out = {.num = 1, .type = type};
SScalarParam out = {.columnData = taosMemoryCalloc(1, sizeof(SColumnInfoData))};
out.columnData->info.type = type;
for (int32_t i = 0; i < listNode->pNodeList->length; ++i) {
SValueNode *valueNode = (SValueNode *)cell->pNode;
in.type = valueNode->node.resType.type;
in.bytes = valueNode->node.resType.bytes;
in.data = nodesGetValueFromNode(valueNode);
out.data = taosMemoryMalloc(sizeof(int64_t));
code = vectorConvertImpl(&in, &out);
code = doConvertDataType(valueNode, &out);
if (code) {
fltError("convert from %d to %d failed", in.type, out.type);
taosMemoryFreeClear(out.data);
// fltError("convert from %d to %d failed", in.type, out.type);
FLT_ERR_RET(code);
}
len = tDataTypes[type].bytes;
filterAddField(info, NULL, &out.data, FLD_TYPE_VALUE, &right, len, true);
filterAddField(info, NULL, (void**) &out.columnData->pData, FLD_TYPE_VALUE, &right, len, true);
filterAddUnit(info, OP_TYPE_EQUAL, &left, &right, &uidx);
SFilterGroup fgroup = {0};
......@@ -1054,7 +1049,6 @@ int32_t fltAddGroupUnitFromNode(SFilterInfo *info, SNode* tree, SArray *group) {
filterAddFieldFromNode(info, node->pRight, &right);
FLT_ERR_RET(filterAddUnit(info, node->opType, &left, &right, &uidx));
SFilterGroup fgroup = {0};
filterAddUnitToGroup(&fgroup, uidx);
......@@ -1080,7 +1074,6 @@ int32_t filterAddUnitFromUnit(SFilterInfo *dst, SFilterInfo *src, SFilterUnit* u
filterAddField(dst, NULL, &data, FLD_TYPE_VALUE, &right, POINTER_BYTES, false); // POINTER_BYTES should be sizeof(SHashObj), but POINTER_BYTES is also right.
t = FILTER_GET_FIELD(dst, right);
FILTER_SET_FLAG(t->flag, FLD_DATA_IS_HASH);
} else {
filterAddField(dst, NULL, &data, FLD_TYPE_VALUE, &right, varDataTLen(data), false);
......@@ -1101,14 +1094,12 @@ int32_t filterAddUnitFromUnit(SFilterInfo *dst, SFilterInfo *src, SFilterUnit* u
int32_t filterAddUnitRight(SFilterInfo *info, uint8_t optr, SFilterFieldId *right, uint32_t uidx) {
SFilterUnit *u = &info->units[uidx];
u->compare.optr2 = optr;
u->right2 = *right;
return TSDB_CODE_SUCCESS;
}
int32_t filterAddGroupUnitFromCtx(SFilterInfo *dst, SFilterInfo *src, SFilterRangeCtx *ctx, uint32_t cidx, SFilterGroup *g, int32_t optr, SArray *res) {
SFilterFieldId left, right, right2;
uint32_t uidx = 0;
......@@ -1800,9 +1791,12 @@ int32_t fltInitValFieldData(SFilterInfo *info) {
if (dType->type == type) {
assignVal(fi->data, nodesGetValueFromNode(var), dType->bytes, type);
} else {
SScalarParam in = {.data = nodesGetValueFromNode(var), .num = 1, .type = dType->type, .bytes = dType->bytes};
SScalarParam out = {.data = fi->data, .num = 1, .type = type};
if (vectorConvertImpl(&in, &out)) {
SScalarParam out = {.columnData = taosMemoryCalloc(1, sizeof(SColumnInfoData))};
out.columnData->info.type = type;
// todo refactor the convert
int32_t code = doConvertDataType(var, &out);
if (code != TSDB_CODE_SUCCESS) {
qError("convert value to type[%d] failed", type);
return TSDB_CODE_TSC_INVALID_OPERATION;
}
......@@ -3636,7 +3630,7 @@ int32_t filterInitFromNode(SNode* pNode, SFilterInfo **pInfo, uint32_t options)
if (*pInfo == NULL) {
*pInfo = taosMemoryCalloc(1, sizeof(SFilterInfo));
if (NULL == *pInfo) {
fltError("calloc %d failed", (int32_t)sizeof(SFilterInfo));
fltError("taosMemoryCalloc %d failed", (int32_t)sizeof(SFilterInfo));
FLT_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
}
......@@ -3676,18 +3670,18 @@ bool filterExecute(SFilterInfo *info, SSDataBlock *pSrc, int8_t** p, SColumnData
FLT_ERR_RET(scalarCalculate(info->sclCtx.node, pList, &output));
taosArrayDestroy(pList);
*p = output.orig.data;
output.orig.data = NULL;
sclFreeParam(&output);
int8_t *r = output.data;
for (int32_t i = 0; i < output.num; ++i) {
if (0 == *(r+i)) {
return false;
}
}
// TODO Fix it
// *p = output.orig.data;
// output.orig.data = NULL;
//
// sclFreeParam(&output);
//
// int8_t *r = output.data;
// for (int32_t i = 0; i < output.num; ++i) {
// if (0 == *(r+i)) {
// return false;
// }
// }
return true;
}
......
source/libs/scalar/src/scalar.c
浏览文件 @ 4bd42a2d
......@@ -6,6 +6,7 @@
#include "sclvector.h"
#include "tcommon.h"
#include "tdatablock.h"
#include "scalar.h"
int32_t scalarGetOperatorParamNum(EOperatorType type) {
if (OP_TYPE_IS_NULL == type || OP_TYPE_IS_NOT_NULL == type || OP_TYPE_IS_TRUE == type || OP_TYPE_IS_NOT_TRUE == type
......@@ -16,6 +17,41 @@ int32_t scalarGetOperatorParamNum(EOperatorType type) {
return 2;
}
SColumnInfoData* createColumnInfoData(SDataType* pType, int32_t numOfRows) {
SColumnInfoData* pColumnData = taosMemoryCalloc(1, sizeof(SColumnInfoData));
if (pColumnData == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return NULL;
}
pColumnData->info.type = pType->type;
pColumnData->info.bytes = pType->bytes;
pColumnData->info.scale = pType->scale;
pColumnData->info.precision = pType->precision;
int32_t code = blockDataEnsureColumnCapacity(pColumnData, numOfRows);
if (code != TSDB_CODE_SUCCESS) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
taosMemoryFree(pColumnData);
return NULL;
} else {
return pColumnData;
}
}
int32_t doConvertDataType(SValueNode* pValueNode, SScalarParam* out) {
SScalarParam in = {.numOfRows = 1};
in.columnData = createColumnInfoData(&pValueNode->node.resType, 1);
colDataAppend(in.columnData, 0, nodesGetValueFromNode(pValueNode), false);
blockDataEnsureColumnCapacity(out->columnData, 1);
int32_t code = vectorConvertImpl(&in, out);
sclFreeParam(&in);
return code;
}
int32_t scalarGenerateSetFromList(void **data, void *pNode, uint32_t type) {
SHashObj *pObj = taosHashInit(256, taosGetDefaultHashFunction(type), true, false);
if (NULL == pObj) {
......@@ -28,10 +64,8 @@ int32_t scalarGenerateSetFromList(void **data, void *pNode, uint32_t type) {
int32_t code = 0;
SNodeListNode *nodeList = (SNodeListNode *)pNode;
SListCell *cell = nodeList->pNodeList->pHead;
SScalarParam in = {.num = 1}, out = {.num = 1, .type = type};
int8_t dummy = 0;
int32_t bufLen = 60;
out.data = taosMemoryMalloc(bufLen);
SScalarParam out = {.columnData = taosMemoryCalloc(1, sizeof(SColumnInfoData))};
int32_t len = 0;
void *buf = NULL;
......@@ -39,22 +73,21 @@ int32_t scalarGenerateSetFromList(void **data, void *pNode, uint32_t type) {
SValueNode *valueNode = (SValueNode *)cell->pNode;
if (valueNode->node.resType.type != type) {
in.type = valueNode->node.resType.type;
in.bytes = valueNode->node.resType.bytes;
in.data = nodesGetValueFromNode(valueNode);
code = vectorConvertImpl(&in, &out);
if (code) {
sclError("convert from %d to %d failed", in.type, out.type);
out.columnData->info.type = type;
out.columnData->info.bytes = tDataTypes[type].bytes;
code = doConvertDataType(valueNode, &out);
if (code != TSDB_CODE_SUCCESS) {
// sclError("convert data from %d to %d failed", in.type, out.type);
SCL_ERR_JRET(code);
}
if (IS_VAR_DATA_TYPE(type)) {
len = varDataLen(out.data);
buf = varDataVal(out.data);
len = varDataLen(out.columnData->pData);
buf = varDataVal(out.columnData->pData);
} else {
len = tDataTypes[type].bytes;
buf = out.data;
buf = out.columnData->pData;
}
} else {
buf = nodesGetValueFromNode(valueNode);
......@@ -63,11 +96,10 @@ int32_t scalarGenerateSetFromList(void **data, void *pNode, uint32_t type) {
buf = varDataVal(buf);
} else {
len = valueNode->node.resType.bytes;
buf = out.data;
}
}
}
if (taosHashPut(pObj, buf, (size_t)len, &dummy, sizeof(dummy))) {
if (taosHashPut(pObj, buf, (size_t)len, NULL, 0)) {
sclError("taosHashPut failed");
SCL_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
......@@ -75,40 +107,14 @@ int32_t scalarGenerateSetFromList(void **data, void *pNode, uint32_t type) {
cell = cell->pNext;
}
taosMemoryFreeClear(out.data);
*data = pObj;
return TSDB_CODE_SUCCESS;
_return:
taosMemoryFreeClear(out.data);
taosHashCleanup(pObj);
SCL_RET(code);
}
FORCE_INLINE bool sclIsNull(SScalarParam* param, int32_t idx) {
if (param->dataInBlock) {
return colDataIsNull(param->orig.columnData, 0, idx, NULL);
}
return param->bitmap ? colDataIsNull_f(param->bitmap, idx) : false;
}
FORCE_INLINE void sclSetNull(SScalarParam* param, int32_t idx) {
if (NULL == param->bitmap) {
param->bitmap = taosMemoryCalloc(BitmapLen(param->num), sizeof(char));
if (NULL == param->bitmap) {
sclError("calloc %d failed", param->num);
return;
}
}
colDataSetNull_f(param->bitmap, idx);
}
void sclFreeRes(SHashObj *res) {
SScalarParam *p = NULL;
void *pIter = taosHashIterate(res, NULL);
......@@ -118,30 +124,21 @@ void sclFreeRes(SHashObj *res) {
if (p) {
sclFreeParam(p);
}
pIter = taosHashIterate(res, pIter);
}
taosHashCleanup(res);
}
void sclFreeParamNoData(SScalarParam *param) {
taosMemoryFreeClear(param->bitmap);
}
void sclFreeParam(SScalarParam *param) {
sclFreeParamNoData(param);
if (!param->dataInBlock) {
if (SCL_DATA_TYPE_DUMMY_HASH == param->type) {
taosHashCleanup((SHashObj *)param->orig.data);
} else {
taosMemoryFreeClear(param->orig.data);
}
if (param->columnData != NULL) {
colDataDestroy(param->columnData);
taosMemoryFreeClear(param->columnData);
}
}
if (param->pHashFilter != NULL) {
taosHashCleanup(param->pHashFilter);
}
}
int32_t sclCopyValueNodeValue(SValueNode *pNode, void **res) {
if (TSDB_DATA_TYPE_NULL == pNode->node.resType.type) {
......@@ -155,7 +152,6 @@ int32_t sclCopyValueNodeValue(SValueNode *pNode, void **res) {
}
memcpy(*res, nodesGetValueFromNode(pNode), pNode->node.resType.bytes);
return TSDB_CODE_SUCCESS;
}
......@@ -163,35 +159,26 @@ int32_t sclInitParam(SNode* node, SScalarParam *param, SScalarCtx *ctx, int32_t
switch (nodeType(node)) {
case QUERY_NODE_VALUE: {
SValueNode *valueNode = (SValueNode *)node;
//SCL_ERR_RET(sclCopyValueNodeValue(valueNode, &param->data));
param->data = nodesGetValueFromNode(valueNode);
param->orig.data = param->data;
param->num = 1;
param->type = valueNode->node.resType.type;
param->bytes = valueNode->node.resType.bytes;
if (TSDB_DATA_TYPE_NULL == param->type) {
sclSetNull(param, 0);
param->numOfRows = 1;
param->columnData = createColumnInfoData(&valueNode->node.resType, 1);
if (TSDB_DATA_TYPE_NULL == valueNode->node.resType.type) {
colDataAppend(param->columnData, 0, NULL, true);
} else {
colDataAppend(param->columnData, 0, nodesGetValueFromNode(valueNode), false);
}
param->dataInBlock = false;
break;
}
case QUERY_NODE_NODE_LIST: {
SNodeListNode *nodeList = (SNodeListNode *)node;
if (nodeList->pNodeList->length <= 0) {
sclError("invalid length in nodeList, length:%d", nodeList->pNodeList->length);
if (LIST_LENGTH(nodeList->pNodeList) <= 0) {
sclError("invalid length in nodeList, length:%d", LIST_LENGTH(nodeList->pNodeList));
SCL_RET(TSDB_CODE_QRY_INVALID_INPUT);
}
SCL_ERR_RET(scalarGenerateSetFromList(&param->data, node, nodeList->dataType.type));
param->orig.data = param->data;
param->num = 1;
param->type = SCL_DATA_TYPE_DUMMY_HASH;
param->dataInBlock = false;
SCL_ERR_RET(scalarGenerateSetFromList((void**) &param->pHashFilter, node, nodeList->dataType.type));
if (taosHashPut(ctx->pRes, &node, POINTER_BYTES, param, sizeof(*param))) {
taosHashCleanup(param->orig.data);
param->orig.data = NULL;
taosHashCleanup(param->pHashFilter);
sclError("taosHashPut nodeList failed, size:%d", (int32_t)sizeof(*param));
return TSDB_CODE_QRY_OUT_OF_MEMORY;
}
......@@ -210,73 +197,38 @@ int32_t sclInitParam(SNode* node, SScalarParam *param, SScalarCtx *ctx, int32_t
}
SSDataBlock *block = *(SSDataBlock **)taosArrayGet(ctx->pBlockList, ref->dataBlockId);
if (NULL == block || ref->slotId >= taosArrayGetSize(block->pDataBlock)) {
sclError("column slotId is too big, slodId:%d, dataBlockSize:%d", ref->slotId, (int32_t)taosArrayGetSize(block->pDataBlock));
SCL_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT);
}
SColumnInfoData *columnData = (SColumnInfoData *)taosArrayGet(block->pDataBlock, ref->slotId);
param->data = NULL;
param->orig.columnData = columnData;
param->dataInBlock = true;
param->num = block->info.rows;
param->type = columnData->info.type;
param->bytes = columnData->info.bytes;
param->numOfRows = block->info.rows;
param->columnData = columnData;
break;
}
case QUERY_NODE_LOGIC_CONDITION:
case QUERY_NODE_OPERATOR: {
case QUERY_NODE_FUNCTION:
case QUERY_NODE_OPERATOR:
case QUERY_NODE_LOGIC_CONDITION: {
SScalarParam *res = (SScalarParam *)taosHashGet(ctx->pRes, &node, POINTER_BYTES);
if (NULL == res) {
sclError("no result for node, type:%d, node:%p", nodeType(node), node);
SCL_ERR_RET(TSDB_CODE_QRY_APP_ERROR);
}
*param = *res;
break;
}
default:
break;
}
if (param->num > *rowNum) {
if ((1 != param->num) && (1 < *rowNum)) {
sclError("different row nums, rowNum:%d, newRowNum:%d", *rowNum, param->num);
if (param->numOfRows > *rowNum) {
if ((1 != param->numOfRows) && (1 < *rowNum)) {
sclError("different row nums, rowNum:%d, newRowNum:%d", *rowNum, param->numOfRows);
SCL_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT);
}
*rowNum = param->num;
}
return TSDB_CODE_SUCCESS;
}
int32_t sclMoveParamListData(SScalarParam *params, int32_t listNum, int32_t idx) {
SScalarParam *param = NULL;
for (int32_t i = 0; i < listNum; ++i) {
param = params + i;
if (1 == param->num) {
continue;
}
if (param->dataInBlock) {
param->data = colDataGetData(param->orig.columnData, idx);
} else if (idx) {
if (IS_VAR_DATA_TYPE(param->type)) {
param->data = (char *)(param->data) + varDataTLen(param->data);
} else {
param->data = (char *)(param->data) + tDataTypes[param->type].bytes;
}
} else {
param->data = param->orig.data;
}
*rowNum = param->numOfRows;
}
return TSDB_CODE_SUCCESS;
......@@ -298,16 +250,13 @@ int32_t sclInitParamList(SScalarParam **pParams, SNodeList* pParamList, SScalarC
}
SCL_ERR_JRET(sclInitParam(cell->pNode, &paramList[i], ctx, rowNum));
cell = cell->pNext;
}
*pParams = paramList;
return TSDB_CODE_SUCCESS;
_return:
taosMemoryFreeClear(paramList);
SCL_RET(code);
}
......@@ -332,16 +281,13 @@ int32_t sclInitOperatorParams(SScalarParam **pParams, SOperatorNode *node, SScal
}
*pParams = paramList;
return TSDB_CODE_SUCCESS;
_return:
taosMemoryFreeClear(paramList);
SCL_RET(code);
}
int32_t sclExecFuncion(SFunctionNode *node, SScalarCtx *ctx, SScalarParam *output) {
if (NULL == node->pParameterList || node->pParameterList->length <= 0) {
sclError("invalid function parameter list, list:%p, paramNum:%d", node->pParameterList, node->pParameterList ? node->pParameterList->length : 0);
......@@ -359,37 +305,30 @@ int32_t sclExecFuncion(SFunctionNode *node, SScalarCtx *ctx, SScalarParam *outpu
int32_t rowNum = 0;
SCL_ERR_RET(sclInitParamList(&params, node->pParameterList, ctx, &rowNum));
output->type = node->node.resType.type;
output->data = taosMemoryCalloc(rowNum, sizeof(tDataTypes[output->type].bytes));
if (NULL == output->data) {
sclError("calloc %d failed", (int32_t)(rowNum * sizeof(tDataTypes[output->type].bytes)));
output->columnData = createColumnInfoData(&node->node.resType, rowNum);
if (output->columnData == NULL) {
sclError("calloc %d failed", (int32_t)(rowNum * output->columnData->info.bytes));
SCL_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
output->orig.data = output->data;
for (int32_t i = 0; i < rowNum; ++i) {
sclMoveParamListData(output, 1, i);
sclMoveParamListData(params, node->pParameterList->length, i);
// for (int32_t i = 0; i < rowNum; ++i) {
code = (*ffpSet.process)(params, node->pParameterList->length, output);
if (code) {
sclError("scalar function exec failed, funcId:%d, code:%s", node->funcId, tstrerror(code));
SCL_ERR_JRET(code);
}
// }
}
_return:
for (int32_t i = 0; i < node->pParameterList->length; ++i) {
sclFreeParamNoData(params + i);
// sclFreeParamNoData(params + i);
}
taosMemoryFreeClear(params);
SCL_RET(code);
}
int32_t sclExecLogic(SLogicConditionNode *node, SScalarCtx *ctx, SScalarParam *output) {
if (NULL == node->pParameterList || node->pParameterList->length <= 0) {
sclError("invalid logic parameter list, list:%p, paramNum:%d", node->pParameterList, node->pParameterList ? node->pParameterList->length : 0);
......@@ -409,28 +348,24 @@ int32_t sclExecLogic(SLogicConditionNode *node, SScalarCtx *ctx, SScalarParam *o
SScalarParam *params = NULL;
int32_t rowNum = 0;
int32_t code = 0;
SCL_ERR_RET(sclInitParamList(&params, node->pParameterList, ctx, &rowNum));
output->type = node->node.resType.type;
output->bytes = sizeof(bool);
output->num = rowNum;
output->data = taosMemoryCalloc(rowNum, sizeof(bool));
if (NULL == output->data) {
int32_t type = node->node.resType.type;
output->numOfRows = rowNum;
SDataType t = {.type = type, .bytes = tDataTypes[type].bytes};
output->columnData = createColumnInfoData(&t, rowNum);
if (output->columnData == NULL) {
sclError("calloc %d failed", (int32_t)(rowNum * sizeof(bool)));
SCL_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
output->orig.data = output->data;
bool value = false;
for (int32_t i = 0; i < rowNum; ++i) {
sclMoveParamListData(output, 1, i);
sclMoveParamListData(params, node->pParameterList->length, i);
for (int32_t m = 0; m < node->pParameterList->length; ++m) {
GET_TYPED_DATA(value, bool, params[m].type, params[m].data);
char* p = colDataGetData(params[m].columnData, i);
GET_TYPED_DATA(value, bool, params[m].columnData->info.type, p);
if (LOGIC_COND_TYPE_AND == node->condType && (false == value)) {
break;
} else if (LOGIC_COND_TYPE_OR == node->condType && value) {
......@@ -440,13 +375,12 @@ int32_t sclExecLogic(SLogicConditionNode *node, SScalarCtx *ctx, SScalarParam *o
}
}
*(bool *)output->data = value;
colDataAppend(output->columnData, i, (char*) &value, false);
}
_return:
for (int32_t i = 0; i < node->pParameterList->length; ++i) {
sclFreeParamNoData(params + i);
// sclFreeParamNoData(params + i);
}
taosMemoryFreeClear(params);
......@@ -459,16 +393,11 @@ int32_t sclExecOperator(SOperatorNode *node, SScalarCtx *ctx, SScalarParam *outp
int32_t code = 0;
SCL_ERR_RET(sclInitOperatorParams(&params, node, ctx, &rowNum));
output->type = node->node.resType.type;
output->num = rowNum;
output->bytes = tDataTypes[output->type].bytes;
output->data = taosMemoryCalloc(rowNum, tDataTypes[output->type].bytes);
if (NULL == output->data) {
sclError("calloc %d failed", (int32_t)rowNum * tDataTypes[output->type].bytes);
output->columnData = createColumnInfoData(&node->node.resType, rowNum);
if (output->columnData == NULL) {
sclError("calloc failed, size:%d", (int32_t)rowNum * node->node.resType.bytes);
SCL_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
output->orig.data = output->data;
_bin_scalar_fn_t OperatorFn = getBinScalarOperatorFn(node->opType);
......@@ -479,18 +408,14 @@ int32_t sclExecOperator(SOperatorNode *node, SScalarCtx *ctx, SScalarParam *outp
OperatorFn(pLeft, pRight, output, TSDB_ORDER_ASC);
_return:
for (int32_t i = 0; i < paramNum; ++i) {
sclFreeParamNoData(params + i);
// sclFreeParam(&params[i]);
}
taosMemoryFreeClear(params);
SCL_RET(code);
}
EDealRes sclRewriteFunction(SNode** pNode, SScalarCtx *ctx) {
SFunctionNode *node = (SFunctionNode *)*pNode;
SScalarParam output = {0};
......@@ -510,11 +435,12 @@ EDealRes sclRewriteFunction(SNode** pNode, SScalarCtx *ctx) {
res->node.resType = node->node.resType;
if (IS_VAR_DATA_TYPE(output.type)) {
res->datum.p = output.data;
output.data = NULL;
int32_t type = output.columnData->info.type;
if (IS_VAR_DATA_TYPE(type)) {
res->datum.p = output.columnData->pData;
output.columnData->pData = NULL;
} else {
memcpy(nodesGetValueFromNode(res), output.data, tDataTypes[output.type].bytes);
memcpy(nodesGetValueFromNode(res), output.columnData->pData, tDataTypes[type].bytes);
}
nodesDestroyNode(*pNode);
......@@ -527,8 +453,8 @@ EDealRes sclRewriteFunction(SNode** pNode, SScalarCtx *ctx) {
EDealRes sclRewriteLogic(SNode** pNode, SScalarCtx *ctx) {
SLogicConditionNode *node = (SLogicConditionNode *)*pNode;
SScalarParam output = {0};
SScalarParam output = {0};
ctx->code = sclExecLogic(node, ctx, &output);
if (ctx->code) {
return DEAL_RES_ERROR;
......@@ -544,25 +470,25 @@ EDealRes sclRewriteLogic(SNode** pNode, SScalarCtx *ctx) {
res->node.resType = node->node.resType;
if (IS_VAR_DATA_TYPE(output.type)) {
res->datum.p = output.data;
output.data = NULL;
int32_t type = output.columnData->info.type;
if (IS_VAR_DATA_TYPE(type)) {
res->datum.p = output.columnData->pData;
output.columnData->pData = NULL;
} else {
memcpy(nodesGetValueFromNode(res), output.data, tDataTypes[output.type].bytes);
memcpy(nodesGetValueFromNode(res), output.columnData->pData, tDataTypes[type].bytes);
}
nodesDestroyNode(*pNode);
*pNode = (SNode*)res;
sclFreeParam(&output);
return DEAL_RES_CONTINUE;
}
EDealRes sclRewriteOperator(SNode** pNode, SScalarCtx *ctx) {
SOperatorNode *node = (SOperatorNode *)*pNode;
SScalarParam output = {0};
SScalarParam output = {.columnData = taosMemoryCalloc(1, sizeof(SColumnInfoData))};
ctx->code = sclExecOperator(node, ctx, &output);
if (ctx->code) {
return DEAL_RES_ERROR;
......@@ -578,22 +504,21 @@ EDealRes sclRewriteOperator(SNode** pNode, SScalarCtx *ctx) {
res->node.resType = node->node.resType;
if (IS_VAR_DATA_TYPE(output.type)) {
res->datum.p = output.data;
output.data = NULL;
int32_t type = output.columnData->info.type;
if (IS_VAR_DATA_TYPE(type)) { // todo refactor
res->datum.p = output.columnData->pData;
output.columnData->pData = NULL;
} else {
memcpy(nodesGetValueFromNode(res), output.data, tDataTypes[output.type].bytes);
memcpy(nodesGetValueFromNode(res), output.columnData->pData, tDataTypes[type].bytes);
}
nodesDestroyNode(*pNode);
*pNode = (SNode*)res;
sclFreeParam(&output);
sclFreeParam(&output);
return DEAL_RES_CONTINUE;
}
EDealRes sclConstantsRewriter(SNode** pNode, void* pContext) {
if (QUERY_NODE_VALUE == nodeType(*pNode) || QUERY_NODE_NODE_LIST == nodeType(*pNode)) {
return DEAL_RES_CONTINUE;
......@@ -614,13 +539,10 @@ EDealRes sclConstantsRewriter(SNode** pNode, void* pContext) {
}
sclError("invalid node type for calculating constants, type:%d", nodeType(*pNode));
ctx->code = TSDB_CODE_QRY_INVALID_INPUT;
return DEAL_RES_ERROR;
}
EDealRes sclWalkFunction(SNode* pNode, SScalarCtx *ctx) {
SFunctionNode *node = (SFunctionNode *)pNode;
SScalarParam output = {0};
......@@ -638,7 +560,6 @@ EDealRes sclWalkFunction(SNode* pNode, SScalarCtx *ctx) {
return DEAL_RES_CONTINUE;
}
EDealRes sclWalkLogic(SNode* pNode, SScalarCtx *ctx) {
SLogicConditionNode *node = (SLogicConditionNode *)pNode;
SScalarParam output = {0};
......@@ -656,7 +577,6 @@ EDealRes sclWalkLogic(SNode* pNode, SScalarCtx *ctx) {
return DEAL_RES_CONTINUE;
}
EDealRes sclWalkOperator(SNode* pNode, SScalarCtx *ctx) {
SOperatorNode *node = (SOperatorNode *)pNode;
SScalarParam output = {0};
......@@ -699,27 +619,26 @@ EDealRes sclWalkTarget(SNode* pNode, SScalarCtx *ctx) {
return DEAL_RES_ERROR;
}
for (int32_t i = 0; i < res->num; ++i) {
sclMoveParamListData(res, 1, i);
colDataAppend(col, i, res->data, sclIsNull(res, i));
for (int32_t i = 0; i < res->numOfRows; ++i) {
if (colDataIsNull(res->columnData, res->numOfRows, i, NULL)) {
colDataAppend(col, i, NULL, true);
} else {
char *p = colDataGetData(res->columnData, i);
colDataAppend(col, i, p, false);
}
}
sclFreeParam(res);
taosHashRemove(ctx->pRes, (void *)&target->pExpr, POINTER_BYTES);
return DEAL_RES_CONTINUE;
}
EDealRes sclCalcWalker(SNode* pNode, void* pContext) {
if (QUERY_NODE_VALUE == nodeType(pNode) || QUERY_NODE_NODE_LIST == nodeType(pNode) || QUERY_NODE_COLUMN == nodeType(pNode)) {
return DEAL_RES_CONTINUE;
}
SScalarCtx *ctx = (SScalarCtx *)pContext;
if (QUERY_NODE_FUNCTION == nodeType(pNode)) {
return sclWalkFunction(pNode, ctx);
}
......@@ -737,14 +656,10 @@ EDealRes sclCalcWalker(SNode* pNode, void* pContext) {
}
sclError("invalid node type for scalar calculating, type:%d", nodeType(pNode));
ctx->code = TSDB_CODE_QRY_INVALID_INPUT;
return DEAL_RES_ERROR;
}
int32_t scalarCalculateConstants(SNode *pNode, SNode **pRes) {
if (NULL == pNode) {
SCL_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT);
......@@ -759,15 +674,11 @@ int32_t scalarCalculateConstants(SNode *pNode, SNode **pRes) {
}
nodesRewriteNodePostOrder(&pNode, sclConstantsRewriter, (void *)&ctx);
SCL_ERR_JRET(ctx.code);
*pRes = pNode;
_return:
sclFreeRes(ctx.pRes);
return code;
}
......@@ -786,7 +697,6 @@ int32_t scalarCalculate(SNode *pNode, SArray *pBlockList, SScalarParam *pDst) {
}
nodesWalkNodePostOrder(pNode, sclCalcWalker, (void *)&ctx);
SCL_ERR_JRET(ctx.code);
if (pDst) {
......@@ -796,18 +706,14 @@ int32_t scalarCalculate(SNode *pNode, SArray *pBlockList, SScalarParam *pDst) {
SCL_ERR_JRET(TSDB_CODE_QRY_APP_ERROR);
}
sclMoveParamListData(res, 1, 0);
*pDst = *res;
colDataAssign(pDst->columnData, res->columnData, res->numOfRows);
pDst->numOfRows = res->numOfRows;
taosHashRemove(ctx.pRes, (void *)&pNode, POINTER_BYTES);
}
_return:
//nodesDestroyNode(pNode);
sclFreeRes(ctx.pRes);
return code;
}
......
source/libs/scalar/src/sclfunc.c
浏览文件 @ 4bd42a2d
#include "sclfunc.h"
#include <common/tdatablock.h>
#include "sclInt.h"
#include "sclvector.h"
static void assignBasicParaInfo(struct SScalarParam* dst, const struct SScalarParam* src) {
dst->type = src->type;
dst->bytes = src->bytes;
//dst->num = src->num;
// dst->type = src->type;
// dst->bytes = src->bytes;
// dst->num = src->num;
}
/** Math functions **/
int32_t absFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
assignBasicParaInfo(pOutput, pInput);
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
SColumnInfoData *pInputData = pInput->columnData;
SColumnInfoData *pOutputData = pOutput->columnData;
int32_t type = GET_PARAM_TYPE(pInput);
if (!IS_NUMERIC_TYPE(type)) {
return TSDB_CODE_FAILED;
}
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
switch (type) {
case TSDB_DATA_TYPE_FLOAT: {
float *in = (float *)pInputData->pData;
float *out = (float *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = (in[i] > 0)? in[i] : -in[i];
}
break;
}
switch (pInput->type) {
case TSDB_DATA_TYPE_FLOAT: {
float v;
GET_TYPED_DATA(v, float, pInput->type, input);
float result;
result = (v > 0) ? v : -v;
SET_TYPED_DATA(output, pOutput->type, result);
break;
case TSDB_DATA_TYPE_DOUBLE: {
double *in = (double *)pInputData->pData;
double *out = (double *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = (in[i] > 0)? in[i] : -in[i];
}
case TSDB_DATA_TYPE_DOUBLE: {
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result;
result = (v > 0) ? v : -v;
SET_TYPED_DATA(output, pOutput->type, result);
break;
break;
}
case TSDB_DATA_TYPE_TINYINT: {
int8_t *in = (int8_t *)pInputData->pData;
int8_t *out = (int8_t *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = (in[i] > 0)? in[i] : -in[i];
}
case TSDB_DATA_TYPE_TINYINT: {
int8_t v;
GET_TYPED_DATA(v, int8_t, pInput->type, input);
int8_t result;
result = (v > 0) ? v : -v;
SET_TYPED_DATA(output, pOutput->type, result);
break;
break;
}
case TSDB_DATA_TYPE_SMALLINT: {
int16_t *in = (int16_t *)pInputData->pData;
int16_t *out = (int16_t *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = (in[i] > 0)? in[i] : -in[i];
}
case TSDB_DATA_TYPE_SMALLINT: {
int16_t v;
GET_TYPED_DATA(v, int16_t, pInput->type, input);
int16_t result;
result = (v > 0) ? v : -v;
SET_TYPED_DATA(output, pOutput->type, result);
break;
break;
}
case TSDB_DATA_TYPE_INT: {
int32_t *in = (int32_t *)pInputData->pData;
int32_t *out = (int32_t *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = (in[i] > 0)? in[i] : -in[i];
}
case TSDB_DATA_TYPE_INT: {
int32_t v;
GET_TYPED_DATA(v, int32_t, pInput->type, input);
int32_t result;
result = (v > 0) ? v : -v;
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
case TSDB_DATA_TYPE_BIGINT: {
int64_t v;
GET_TYPED_DATA(v, int64_t, pInput->type, input);
int64_t result;
result = (v > 0) ? v : -v;
SET_TYPED_DATA(output, pOutput->type, result);
break;
break;
}
case TSDB_DATA_TYPE_BIGINT: {
int64_t *in = (int64_t *)pInputData->pData;
int64_t *out = (int64_t *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = (in[i] > 0)? in[i] : -in[i];
}
break;
}
default: {
memcpy(output, input, pInput->bytes);
break;
}
default: {
colDataAssign(pOutputData, pInputData, pInput->numOfRows);
}
}
pOutput->numOfRows = pInput->numOfRows;
return TSDB_CODE_SUCCESS;
}
int32_t logFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
#if 0
if (inputNum != 2 || !IS_NUMERIC_TYPE(pInput[0].type) || !IS_NUMERIC_TYPE(pInput[1].type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
char **input = NULL, *output = NULL;
bool hasNullInput = false;
input = taosMemoryCalloc(inputNum, sizeof(char *));
......@@ -132,11 +144,13 @@ int32_t logFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutpu
}
taosMemoryFree(input);
#endif
return TSDB_CODE_SUCCESS;
}
int32_t powFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
#if 0
if (inputNum != 2 || !IS_NUMERIC_TYPE(pInput[0].type) || !IS_NUMERIC_TYPE(pInput[1].type)) {
return TSDB_CODE_FAILED;
}
......@@ -175,381 +189,140 @@ int32_t powFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutpu
}
taosMemoryFree(input);
#endif
return TSDB_CODE_SUCCESS;
}
int32_t sqrtFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
typedef float (*_float_fn)(float);
typedef double (*_double_fn)(double);
int32_t doScalarFunctionUnique(SScalarParam *pInput, int32_t inputNum, SScalarParam* pOutput, _double_fn valFn) {
int32_t type = GET_PARAM_TYPE(pInput);
if (inputNum != 1 || !IS_NUMERIC_TYPE(type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
SColumnInfoData *pInputData = pInput->columnData;
SColumnInfoData *pOutputData = pOutput->columnData;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
_getDoubleValue_fn_t getValueFn = getVectorDoubleValueFn(type);
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
double *out = (double *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = sqrt(v);
SET_TYPED_DATA(output, pOutput->type, result);
out[i] = valFn(getValueFn(pInputData->pData, i));
}
pOutput->numOfRows = pInput->numOfRows;
return TSDB_CODE_SUCCESS;
}
int32_t sinFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
int32_t doScalarFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam* pOutput, _float_fn f1, _double_fn d1) {
int32_t type = GET_PARAM_TYPE(pInput);
if (inputNum != 1 || !IS_NUMERIC_TYPE(type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
SColumnInfoData *pInputData = pInput->columnData;
SColumnInfoData *pOutputData = pOutput->columnData;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
switch (type) {
case TSDB_DATA_TYPE_FLOAT: {
float *in = (float *)pInputData->pData;
float *out = (float *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = f1(in[i]);
}
break;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
case TSDB_DATA_TYPE_DOUBLE: {
double *in = (double *)pInputData->pData;
double *out = (double *)pOutputData->pData;
for (int32_t i = 0; i < pInput->numOfRows; ++i) {
if (colDataIsNull_f(pInputData->nullbitmap, i)) {
colDataSetNull_f(pOutputData->nullbitmap, i);
continue;
}
out[i] = d1(in[i]);
}
break;
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = sin(v);
SET_TYPED_DATA(output, pOutput->type, result);
default: {
colDataAssign(pOutputData, pInputData, pInput->numOfRows);
}
}
pOutput->numOfRows = pInput->numOfRows;
return TSDB_CODE_SUCCESS;
}
int32_t cosFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
int32_t atanFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
return doScalarFunctionUnique(pInput, inputNum, pOutput, atan);
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = cos(v);
SET_TYPED_DATA(output, pOutput->type, result);
}
int32_t sinFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
return doScalarFunctionUnique(pInput, inputNum, pOutput, sin);
}
return TSDB_CODE_SUCCESS;
int32_t cosFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
return doScalarFunctionUnique(pInput, inputNum, pOutput, cos);
}
int32_t tanFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = tan(v);
SET_TYPED_DATA(output, pOutput->type, result);
}
return TSDB_CODE_SUCCESS;
return doScalarFunctionUnique(pInput, inputNum, pOutput, tan);
}
int32_t asinFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = asin(v);
SET_TYPED_DATA(output, pOutput->type, result);
}
return TSDB_CODE_SUCCESS;
return doScalarFunctionUnique(pInput, inputNum, pOutput, asin);
}
int32_t acosFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = acos(v);
SET_TYPED_DATA(output, pOutput->type, result);
}
return TSDB_CODE_SUCCESS;
return doScalarFunctionUnique(pInput, inputNum, pOutput, acos);
}
int32_t atanFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
pOutput->type = TSDB_DATA_TYPE_DOUBLE;
pOutput->bytes = tDataTypes[TSDB_DATA_TYPE_DOUBLE].bytes;
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = atan(v);
SET_TYPED_DATA(output, pOutput->type, result);
}
return TSDB_CODE_SUCCESS;
int32_t sqrtFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
return doScalarFunctionUnique(pInput, inputNum, pOutput, sqrt);
}
int32_t ceilFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
switch (pInput->type) {
case TSDB_DATA_TYPE_FLOAT: {
float v;
GET_TYPED_DATA(v, float, pInput->type, input);
float result = ceilf(v);
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
case TSDB_DATA_TYPE_DOUBLE: {
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = ceil(v);
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
default: {
memcpy(output, input, pInput->bytes);
break;
}
}
}
return TSDB_CODE_SUCCESS;
return doScalarFunction(pInput, inputNum, pOutput, ceilf, ceil);
}
int32_t floorFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
assignBasicParaInfo(pOutput, pInput);
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
switch (pInput->type) {
case TSDB_DATA_TYPE_FLOAT: {
float v;
GET_TYPED_DATA(v, float, pInput->type, input);
float result = floorf(v);
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
case TSDB_DATA_TYPE_DOUBLE: {
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = floor(v);
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
default: {
memcpy(output, input, pInput->bytes);
break;
}
}
}
return TSDB_CODE_SUCCESS;
return doScalarFunction(pInput, inputNum, pOutput, floorf, floor);
}
int32_t roundFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) {
assignBasicParaInfo(pOutput, pInput);
if (inputNum != 1 || !IS_NUMERIC_TYPE(pInput->type)) {
return TSDB_CODE_FAILED;
}
char *input = NULL, *output = NULL;
for (int32_t i = 0; i < pOutput->num; ++i) {
if (pInput->num == 1) {
input = pInput->data;
} else {
input = pInput->data + i * pInput->bytes;
}
output = pOutput->data + i * pOutput->bytes;
if (isNull(input, pInput->type)) {
setNull(output, pOutput->type, pOutput->bytes);
continue;
}
switch (pInput->type) {
case TSDB_DATA_TYPE_FLOAT: {
float v;
GET_TYPED_DATA(v, float, pInput->type, input);
float result = roundf(v);
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
case TSDB_DATA_TYPE_DOUBLE: {
double v;
GET_TYPED_DATA(v, double, pInput->type, input);
double result = round(v);
SET_TYPED_DATA(output, pOutput->type, result);
break;
}
default: {
memcpy(output, input, pInput->bytes);
break;
}
}
}
return TSDB_CODE_SUCCESS;
return doScalarFunction(pInput, inputNum, pOutput, roundf, round);
}
static void tlength(SScalarParam* pOutput, size_t numOfInput, const SScalarParam *pLeft) {
assert(numOfInput == 1);
#if 0
int64_t* out = (int64_t*) pOutput->data;
char* s = pLeft->data;
for(int32_t i = 0; i < pLeft->num; ++i) {
out[i] = varDataLen(POINTER_SHIFT(s, i * pLeft->bytes));
}
#endif
}
static void tconcat(SScalarParam* pOutput, size_t numOfInput, const SScalarParam *pLeft) {
assert(numOfInput > 0);
#if 0
int32_t rowLen = 0;
int32_t num = 1;
for(int32_t i = 0; i < numOfInput; ++i) {
......@@ -577,6 +350,7 @@ static void tconcat(SScalarParam* pOutput, size_t numOfInput, const SScalarParam
rstart += rowLen;
}
#endif
}
static void tltrim(SScalarParam* pOutput, size_t numOfInput, const SScalarParam *pLeft) {
......@@ -652,154 +426,3 @@ static void reverseCopy(char* dest, const char* src, int16_t type, int32_t numOf
}
}
static void setScalarFuncParam(SScalarParam* param, int32_t type, int32_t bytes, void* pInput, int32_t numOfRows) {
param->bytes = bytes;
param->type = type;
param->num = numOfRows;
param->data = pInput;
}
#if 0
int32_t evaluateExprNodeTree(tExprNode* pExprs, int32_t numOfRows, SScalarFuncParam* pOutput, void* param,
char* (*getSourceDataBlock)(void*, const char*, int32_t)) {
if (pExprs == NULL) {
return 0;
}
tExprNode* pLeft = pExprs->_node.pLeft;
tExprNode* pRight = pExprs->_node.pRight;
/* the left output has result from the left child syntax tree */
SScalarFuncParam leftOutput = {0};
SScalarFuncParam rightOutput = {0};
if (pLeft->nodeType == TEXPR_BINARYEXPR_NODE || pLeft->nodeType == TEXPR_UNARYEXPR_NODE) {
leftOutput.data = taosMemoryMalloc(sizeof(int64_t) * numOfRows);
evaluateExprNodeTree(pLeft, numOfRows, &leftOutput, param, getSourceDataBlock);
}
// the right output has result from the right child syntax tree
if (pRight->nodeType == TEXPR_BINARYEXPR_NODE || pRight->nodeType == TEXPR_UNARYEXPR_NODE) {
rightOutput.data = taosMemoryMalloc(sizeof(int64_t) * numOfRows);
evaluateExprNodeTree(pRight, numOfRows, &rightOutput, param, getSourceDataBlock);
}
if (pExprs->nodeType == TEXPR_BINARYEXPR_NODE) {
_bin_scalar_fn_t OperatorFn = getBinScalarOperatorFn(pExprs->_node.optr);
SScalarFuncParam left = {0}, right = {0};
if (pLeft->nodeType == TEXPR_BINARYEXPR_NODE || pLeft->nodeType == TEXPR_UNARYEXPR_NODE) {
setScalarFuncParam(&left, leftOutput.type, leftOutput.bytes, leftOutput.data, leftOutput.num);
} else if (pLeft->nodeType == TEXPR_COL_NODE) {
SSchema* pschema = pLeft->pSchema;
char* pLeftInputData = getSourceDataBlock(param, pschema->name, pschema->colId);
setScalarFuncParam(&right, pschema->type, pschema->bytes, pLeftInputData, numOfRows);
} else if (pLeft->nodeType == TEXPR_VALUE_NODE) {
SVariant* pVar = pRight->pVal;
setScalarFuncParam(&left, pVar->nType, pVar->nLen, &pVar->i, 1);
}
if (pRight->nodeType == TEXPR_BINARYEXPR_NODE || pRight->nodeType == TEXPR_UNARYEXPR_NODE) {
setScalarFuncParam(&right, rightOutput.type, rightOutput.bytes, rightOutput.data, rightOutput.num);
} else if (pRight->nodeType == TEXPR_COL_NODE) { // exprLeft + columnRight
SSchema* pschema = pRight->pSchema;
char* pInputData = getSourceDataBlock(param, pschema->name, pschema->colId);
setScalarFuncParam(&right, pschema->type, pschema->bytes, pInputData, numOfRows);
} else if (pRight->nodeType == TEXPR_VALUE_NODE) { // exprLeft + 12
SVariant* pVar = pRight->pVal;
setScalarFuncParam(&right, pVar->nType, pVar->nLen, &pVar->i, 1);
}
void* outputBuf = pOutput->data;
if (isStringOp(pExprs->_node.optr)) {
outputBuf = taosMemoryRealloc(pOutput->data, (left.bytes + right.bytes) * left.num);
}
OperatorFn(&left, &right, outputBuf, TSDB_ORDER_ASC);
// Set the result info
setScalarFuncParam(pOutput, TSDB_DATA_TYPE_DOUBLE, sizeof(double), outputBuf, numOfRows);
} else if (pExprs->nodeType == TEXPR_UNARYEXPR_NODE) {
_unary_scalar_fn_t OperatorFn = getUnaryScalarOperatorFn(pExprs->_node.optr);
SScalarFuncParam left = {0};
if (pLeft->nodeType == TEXPR_BINARYEXPR_NODE || pLeft->nodeType == TEXPR_UNARYEXPR_NODE) {
setScalarFuncParam(&left, leftOutput.type, leftOutput.bytes, leftOutput.data, leftOutput.num);
} else if (pLeft->nodeType == TEXPR_COL_NODE) {
SSchema* pschema = pLeft->pSchema;
char* pLeftInputData = getSourceDataBlock(param, pschema->name, pschema->colId);
setScalarFuncParam(&left, pschema->type, pschema->bytes, pLeftInputData, numOfRows);
} else if (pLeft->nodeType == TEXPR_VALUE_NODE) {
SVariant* pVar = pLeft->pVal;
setScalarFuncParam(&left, pVar->nType, pVar->nLen, &pVar->i, 1);
}
// reserve enough memory buffer
if (isBinaryStringOp(pExprs->_node.optr)) {
void* outputBuf = taosMemoryRealloc(pOutput->data, left.bytes * left.num);
assert(outputBuf != NULL);
pOutput->data = outputBuf;
}
OperatorFn(&left, pOutput);
}
taosMemoryFreeClear(leftOutput.data);
taosMemoryFreeClear(rightOutput.data);
return 0;
}
#endif
//SScalarFunctionInfo scalarFunc[8] = {
// {"ceil", FUNCTION_TYPE_SCALAR, FUNCTION_CEIL, tceil},
// {"floor", FUNCTION_TYPE_SCALAR, FUNCTION_FLOOR, tfloor},
// {"abs", FUNCTION_TYPE_SCALAR, FUNCTION_ABS, _tabs},
// {"round", FUNCTION_TYPE_SCALAR, FUNCTION_ROUND, tround},
// {"length", FUNCTION_TYPE_SCALAR, FUNCTION_LENGTH, tlength},
// {"concat", FUNCTION_TYPE_SCALAR, FUNCTION_CONCAT, tconcat},
// {"ltrim", FUNCTION_TYPE_SCALAR, FUNCTION_LTRIM, tltrim},
// {"rtrim", FUNCTION_TYPE_SCALAR, FUNCTION_RTRIM, trtrim},
//};
void setScalarFunctionSupp(struct SScalarFunctionSupport* sas, SExprInfo *pExprInfo, SSDataBlock* pSDataBlock) {
sas->numOfCols = (int32_t) pSDataBlock->info.numOfCols;
sas->pExprInfo = pExprInfo;
if (sas->colList != NULL) {
return;
}
sas->colList = taosMemoryCalloc(1, pSDataBlock->info.numOfCols*sizeof(SColumnInfo));
for(int32_t i = 0; i < sas->numOfCols; ++i) {
SColumnInfoData* pColData = taosArrayGet(pSDataBlock->pDataBlock, i);
sas->colList[i] = pColData->info;
}
sas->data = taosMemoryCalloc(sas->numOfCols, POINTER_BYTES);
// set the input column data
for (int32_t f = 0; f < pSDataBlock->info.numOfCols; ++f) {
SColumnInfoData *pColumnInfoData = taosArrayGet(pSDataBlock->pDataBlock, f);
sas->data[f] = pColumnInfoData->pData;
}
}
SScalarFunctionSupport* createScalarFuncSupport(int32_t num) {
SScalarFunctionSupport* pSupp = taosMemoryCalloc(num, sizeof(SScalarFunctionSupport));
return pSupp;
}
void destroyScalarFuncSupport(struct SScalarFunctionSupport* pSupport, int32_t num) {
if (pSupport == NULL) {
return;
}
for(int32_t i = 0; i < num; ++i) {
SScalarFunctionSupport* pSupp = &pSupport[i];
taosMemoryFreeClear(pSupp->data);
taosMemoryFreeClear(pSupp->colList);
}
taosMemoryFreeClear(pSupport);
}
source/libs/scalar/src/sclvector.c
浏览文件 @ 4bd42a2d
......@@ -25,108 +25,6 @@
#include "tdatablock.h"
#include "ttypes.h"
//GET_TYPED_DATA(v, double, pRight->type, (char *)&((right)[i]));
void calc_i32_i32_add(void *left, void *right, int32_t numLeft, int32_t numRight, void *output, int32_t order) {
int32_t *pLeft = (int32_t *)left;
int32_t *pRight = (int32_t *)right;
double * pOutput = (double *)output;
int32_t i = (order == TSDB_ORDER_ASC) ? 0 : TMAX(numLeft, numRight) - 1;
int32_t step = (order == TSDB_ORDER_ASC) ? 1 : -1;
if (numLeft == numRight) {
for (; i >= 0 && i < numRight; i += step, pOutput += 1) {
if (isNull((char *)&(pLeft[i]), TSDB_DATA_TYPE_INT) || isNull((char *)&(pRight[i]), TSDB_DATA_TYPE_INT)) {
SET_DOUBLE_NULL(pOutput);
continue;
}
*pOutput = (double)pLeft[i] + pRight[i];
}
} else if (numLeft == 1) {
for (; i >= 0 && i < numRight; i += step, pOutput += 1) {
if (isNull((char *)(pLeft), TSDB_DATA_TYPE_INT) || isNull((char *)&(pRight[i]), TSDB_DATA_TYPE_INT)) {
SET_DOUBLE_NULL(pOutput);
continue;
}
*pOutput = (double)pLeft[0] + pRight[i];
}
} else if (numRight == 1) {
for (; i >= 0 && i < numLeft; i += step, pOutput += 1) {
if (isNull((char *)&(pLeft[i]), TSDB_DATA_TYPE_INT) || isNull((char *)(pRight), TSDB_DATA_TYPE_INT)) {
SET_DOUBLE_NULL(pOutput);
continue;
}
*pOutput = (double)pLeft[i] + pRight[0];
}
}
}
typedef double (*_getDoubleValue_fn_t)(void *src, int32_t index);
double getVectorDoubleValue_TINYINT(void *src, int32_t index) {
return (double)*((int8_t *)src + index);
}
double getVectorDoubleValue_UTINYINT(void *src, int32_t index) {
return (double)*((uint8_t *)src + index);
}
double getVectorDoubleValue_SMALLINT(void *src, int32_t index) {
return (double)*((int16_t *)src + index);
}
double getVectorDoubleValue_USMALLINT(void *src, int32_t index) {
return (double)*((uint16_t *)src + index);
}
double getVectorDoubleValue_INT(void *src, int32_t index) {
return (double)*((int32_t *)src + index);
}
double getVectorDoubleValue_UINT(void *src, int32_t index) {
return (double)*((uint32_t *)src + index);
}
double getVectorDoubleValue_BIGINT(void *src, int32_t index) {
return (double)*((int64_t *)src + index);
}
double getVectorDoubleValue_UBIGINT(void *src, int32_t index) {
return (double)*((uint64_t *)src + index);
}
double getVectorDoubleValue_FLOAT(void *src, int32_t index) {
return (double)*((float *)src + index);
}
double getVectorDoubleValue_DOUBLE(void *src, int32_t index) {
return (double)*((double *)src + index);
}
_getDoubleValue_fn_t getVectorDoubleValueFn(int32_t srcType) {
_getDoubleValue_fn_t p = NULL;
if(srcType==TSDB_DATA_TYPE_TINYINT) {
p = getVectorDoubleValue_TINYINT;
}else if(srcType==TSDB_DATA_TYPE_UTINYINT) {
p = getVectorDoubleValue_UTINYINT;
}else if(srcType==TSDB_DATA_TYPE_SMALLINT) {
p = getVectorDoubleValue_SMALLINT;
}else if(srcType==TSDB_DATA_TYPE_USMALLINT) {
p = getVectorDoubleValue_USMALLINT;
}else if(srcType==TSDB_DATA_TYPE_INT) {
p = getVectorDoubleValue_INT;
}else if(srcType==TSDB_DATA_TYPE_UINT) {
p = getVectorDoubleValue_UINT;
}else if(srcType==TSDB_DATA_TYPE_BIGINT) {
p = getVectorDoubleValue_BIGINT;
}else if(srcType==TSDB_DATA_TYPE_UBIGINT) {
p = getVectorDoubleValue_UBIGINT;
}else if(srcType==TSDB_DATA_TYPE_FLOAT) {
p = getVectorDoubleValue_FLOAT;
}else if(srcType==TSDB_DATA_TYPE_DOUBLE) {
p = getVectorDoubleValue_DOUBLE;
}else {
assert(0);
}
return p;
}
typedef int64_t (*_getBigintValue_fn_t)(void *src, int32_t index);
int64_t getVectorBigintValue_TINYINT(void *src, int32_t index) {
......@@ -187,9 +85,6 @@ _getBigintValue_fn_t getVectorBigintValueFn(int32_t srcType) {
return p;
}
typedef void* (*_getValueAddr_fn_t)(void *src, int32_t index);
void* getVectorValueAddr_TINYINT(void *src, int32_t index) {
......@@ -261,28 +156,35 @@ _getValueAddr_fn_t getVectorValueAddrFn(int32_t srcType) {
return p;
}
static FORCE_INLINE void varToSigned(char *buf, SScalarParam* pOut, int32_t outType) {
static FORCE_INLINE void varToSigned(char *buf, SScalarParam* pOut, int32_t rowIndex) {
int64_t value = strtoll(buf, NULL, 10);
SET_TYPED_DATA(pOut->data, outType, value);
colDataAppend(pOut->columnData, rowIndex, (char*) &value, false);
}
static FORCE_INLINE void varToUnsigned(char *buf, SScalarParam* pOut, int32_t outType) {
static FORCE_INLINE void varToUnsigned(char *buf, SScalarParam* pOut, int32_t rowIndex) {
uint64_t value = strtoull(buf, NULL, 10);
SET_TYPED_DATA(pOut->data, outType, value);
colDataAppend(pOut->columnData, rowIndex, (char*) &value, false);
}
static FORCE_INLINE void varToFloat(char *buf, SScalarParam* pOut, int32_t outType) {
static FORCE_INLINE void varToFloat(char *buf, SScalarParam* pOut, int32_t rowIndex) {
double value = strtod(buf, NULL);
SET_TYPED_DATA(pOut->data, outType, value);
colDataAppend(pOut->columnData, rowIndex, (char*) &value, false);
}
static FORCE_INLINE void varToBool(char *buf, SScalarParam* pOut, int32_t rowIndex) {
int64_t value = strtoll(buf, NULL, 10);
bool v = (value != 0)? true:false;
colDataAppend(pOut->columnData, rowIndex, (char*) &v, false);
}
int32_t vectorConvertFromVarData(SScalarParam* pIn, SScalarParam* pOut, int32_t inType, int32_t outType) {
int32_t bufSize = 0;
char *tmp = NULL;
_bufConverteFunc func = NULL;
int32_t vectorConvertFromVarData(const SScalarParam* pIn, SScalarParam* pOut, int32_t inType, int32_t outType) {
int32_t bufSize = pIn->columnData->info.bytes;
char *tmp = taosMemoryMalloc(bufSize);
if (IS_SIGNED_NUMERIC_TYPE(outType) || TSDB_DATA_TYPE_TIMESTAMP == outType || TSDB_DATA_TYPE_BOOL == outType) {
_bufConverteFunc func = NULL;
if (TSDB_DATA_TYPE_BOOL == outType) {
func = varToBool;
} else if (IS_SIGNED_NUMERIC_TYPE(outType) || TSDB_DATA_TYPE_TIMESTAMP == outType) {
func = varToSigned;
} else if (IS_UNSIGNED_NUMERIC_TYPE(outType)) {
func = varToUnsigned;
......@@ -292,31 +194,22 @@ int32_t vectorConvertFromVarData(SScalarParam* pIn, SScalarParam* pOut, int32_t
sclError("invalid convert outType:%d", outType);
return TSDB_CODE_QRY_APP_ERROR;
}
for (int32_t i = 0; i < pIn->num; ++i) {
sclMoveParamListData(pIn, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pIn, i)) {
sclSetNull(pOut, i);
pOut->numOfRows = pIn->numOfRows;
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull(pIn->columnData, pIn->numOfRows, i, NULL)) {
colDataAppend(pOut->columnData, i, NULL, true);
continue;
}
char* data = colDataGetData(pIn->columnData, i);
if (TSDB_DATA_TYPE_BINARY == inType) {
if (varDataLen(pIn->data) >= bufSize) {
bufSize = varDataLen(pIn->data) + 1;
tmp = taosMemoryRealloc(tmp, bufSize);
}
memcpy(tmp, varDataVal(pIn->data), varDataLen(pIn->data));
tmp[varDataLen(pIn->data)] = 0;
memcpy(tmp, varDataVal(data), varDataLen(data));
tmp[varDataLen(data)] = 0;
} else {
if (varDataLen(pIn->data) * TSDB_NCHAR_SIZE >= bufSize) {
bufSize = varDataLen(pIn->data) * TSDB_NCHAR_SIZE + 1;
tmp = taosMemoryRealloc(tmp, bufSize);
}
ASSERT (varDataLen(data) <= bufSize);
int len = taosUcs4ToMbs((TdUcs4*)varDataVal(pIn->data), varDataLen(pIn->data), tmp);
int len = taosUcs4ToMbs((TdUcs4*)varDataVal(data), varDataLen(data), tmp);
if (len < 0){
sclError("castConvert taosUcs4ToMbs error 1");
taosMemoryFreeClear(tmp);
......@@ -326,80 +219,82 @@ int32_t vectorConvertFromVarData(SScalarParam* pIn, SScalarParam* pOut, int32_t
tmp[len] = 0;
}
(*func)(tmp, pOut, outType);
(*func)(tmp, pOut, i);
}
taosMemoryFreeClear(tmp);
return TSDB_CODE_SUCCESS;
}
int32_t vectorConvertImpl(SScalarParam* pIn, SScalarParam* pOut) {
int16_t inType = pIn->type;
int16_t inBytes = pIn->bytes;
int16_t outType = pOut->type;
int16_t outBytes = pOut->bytes;
// TODO opt performance
int32_t vectorConvertImpl(const SScalarParam* pIn, SScalarParam* pOut) {
SColumnInfoData* pInputCol = pIn->columnData;
SColumnInfoData* pOutputCol = pOut->columnData;
int16_t inType = pInputCol->info.type;
int16_t outType = pOutputCol->info.type;
if (inType == TSDB_DATA_TYPE_BINARY || inType == TSDB_DATA_TYPE_NCHAR) {
if (IS_VAR_DATA_TYPE(inType)) {
return vectorConvertFromVarData(pIn, pOut, inType, outType);
}
switch (outType) {
case TSDB_DATA_TYPE_BOOL:
case TSDB_DATA_TYPE_BOOL: {
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
bool value = 0;
GET_TYPED_DATA(value, int64_t, inType, colDataGetData(pInputCol, i));
colDataAppend(pOutputCol, i, (char*) &value, false);
}
break;
}
case TSDB_DATA_TYPE_TINYINT:
case TSDB_DATA_TYPE_SMALLINT:
case TSDB_DATA_TYPE_INT:
case TSDB_DATA_TYPE_BIGINT:
case TSDB_DATA_TYPE_TIMESTAMP:
for (int32_t i = 0; i < pIn->num; ++i) {
sclMoveParamListData(pIn, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pIn, i)) {
sclSetNull(pOut, i);
case TSDB_DATA_TYPE_TIMESTAMP: {
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
int64_t value = 0;
GET_TYPED_DATA(value, int64_t, inType, pIn->data);
SET_TYPED_DATA(pOut->data, outType, value);
GET_TYPED_DATA(value, int64_t, inType, colDataGetData(pInputCol, i));
colDataAppend(pOutputCol, i, (char *)&value, false);
}
break;
case TSDB_DATA_TYPE_UTINYINT:
}
case TSDB_DATA_TYPE_UTINYINT:
case TSDB_DATA_TYPE_USMALLINT:
case TSDB_DATA_TYPE_UINT:
case TSDB_DATA_TYPE_UBIGINT:
for (int32_t i = 0; i < pIn->num; ++i) {
sclMoveParamListData(pIn, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pIn, i)) {
sclSetNull(pOut, i);
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
uint64_t value = 0;
GET_TYPED_DATA(value, uint64_t, inType, pIn->data);
SET_TYPED_DATA(pOut->data, outType, value);
GET_TYPED_DATA(value, uint64_t, inType, colDataGetData(pInputCol, i));
colDataAppend(pOutputCol, i, (char*) &value, false);
}
break;
case TSDB_DATA_TYPE_FLOAT:
case TSDB_DATA_TYPE_DOUBLE:
for (int32_t i = 0; i < pIn->num; ++i) {
sclMoveParamListData(pIn, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pIn, i)) {
sclSetNull(pOut, i);
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
double value = 0;
GET_TYPED_DATA(value, double, inType, pIn->data);
SET_TYPED_DATA(pOut->data, outType, value);
GET_TYPED_DATA(value, double, inType, colDataGetData(pInputCol, i));
colDataAppend(pOutputCol, i, (char*) &value, false);
}
break;
default:
......@@ -446,11 +341,13 @@ int32_t vectorGetConvertType(int32_t type1, int32_t type2) {
}
int32_t vectorConvert(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam* pLeftOut, SScalarParam* pRightOut) {
if (pLeft->type == pRight->type) {
if (pLeft->pHashFilter != NULL || pRight->pHashFilter != NULL) {
return TSDB_CODE_SUCCESS;
}
if (SCL_DATA_TYPE_DUMMY_HASH == pLeft->type || SCL_DATA_TYPE_DUMMY_HASH == pRight->type) {
int32_t leftType = GET_PARAM_TYPE(pLeft);
int32_t rightType = GET_PARAM_TYPE(pRight);
if (leftType == rightType) {
return TSDB_CODE_SUCCESS;
}
......@@ -458,7 +355,7 @@ int32_t vectorConvert(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam* p
SScalarParam *param2 = NULL, *paramOut2 = NULL;
int32_t code = 0;
if (pLeft->type < pRight->type) {
if (leftType < rightType) {
param1 = pLeft;
param2 = pRight;
paramOut1 = pLeftOut;
......@@ -470,44 +367,38 @@ int32_t vectorConvert(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam* p
paramOut2 = pLeftOut;
}
int8_t type = vectorGetConvertType(param1->type, param2->type);
int8_t type = vectorGetConvertType(GET_PARAM_TYPE(param1), GET_PARAM_TYPE(param2));
if (0 == type) {
return TSDB_CODE_SUCCESS;
}
if (type != param1->type) {
paramOut1->bytes = param1->bytes;
paramOut1->type = type;
paramOut1->num = param1->num;
paramOut1->data = taosMemoryMalloc(paramOut1->num * tDataTypes[paramOut1->type].bytes);
if (NULL == paramOut1->data) {
return TSDB_CODE_QRY_OUT_OF_MEMORY;
if (type != GET_PARAM_TYPE(param1)) {
SDataType t = {.type = type, .bytes = tDataTypes[type].bytes};
paramOut1->numOfRows = param1->numOfRows;
paramOut1->columnData = createColumnInfoData(&t, param1->numOfRows);
if (paramOut1->columnData == NULL) {
return terrno;
}
paramOut1->orig.data = paramOut1->data;
code = vectorConvertImpl(param1, paramOut1);
if (code) {
taosMemoryFreeClear(paramOut1->data);
// taosMemoryFreeClear(paramOut1->data);
return code;
}
}
if (type != param2->type) {
paramOut2->bytes = param2->bytes;
paramOut2->type = type;
paramOut2->num = param2->num;
paramOut2->data = taosMemoryMalloc(paramOut2->num * tDataTypes[paramOut2->type].bytes);
if (NULL == paramOut2->data) {
taosMemoryFreeClear(paramOut1->data);
return TSDB_CODE_QRY_OUT_OF_MEMORY;
if (type != GET_PARAM_TYPE(param2)) {
SDataType t = {.type = type, .bytes = tDataTypes[type].bytes};
paramOut2->numOfRows = param2->numOfRows;
paramOut2->columnData = createColumnInfoData(&t, param2->numOfRows);
if (paramOut2->columnData == NULL) {
return terrno;
}
paramOut2->orig.data = paramOut2->data;
code = vectorConvertImpl(param2, paramOut2);
if (code) {
taosMemoryFreeClear(paramOut1->data);
taosMemoryFreeClear(paramOut2->data);
return code;
}
}
......@@ -515,652 +406,387 @@ int32_t vectorConvert(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam* p
return TSDB_CODE_SUCCESS;
}
void vectorMath(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord, _mathFunc func) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
double leftv = 0, rightv = 0;
bool isNull = false;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pLeft->num, .dataInBlock = false};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pRight->num, .dataInBlock = false};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(double));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(double));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
}
pRight = &rightParam;
}
enum {
VECTOR_DO_CONVERT = 0x1,
VECTOR_UN_CONVERT = 0x2,
};
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
static int32_t doConvertHelper(SScalarParam* pDest, int32_t* convert, const SScalarParam* pParam, int32_t type) {
SColumnInfoData* pCol = pParam->columnData;
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
if (IS_VAR_DATA_TYPE(pCol->info.type)) {
pDest->numOfRows = pParam->numOfRows;
SET_DOUBLE_VAL(pOut->data, (*func)(leftv, rightv, &isNull));
if (isNull) {
sclSetNull(pOut, i);
isNull = false;
}
SDataType t = {.type = type, .bytes = tDataTypes[type].bytes};
pDest->columnData = createColumnInfoData(&t, pParam->numOfRows);
if (pDest->columnData == NULL) {
sclError("malloc %d failed", (int32_t)(pParam->numOfRows * sizeof(double)));
return TSDB_CODE_OUT_OF_MEMORY;
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
SET_DOUBLE_VAL(pOut->data, (*func)(leftv, rightv, &isNull));
if (isNull) {
sclSetNull(pOut, i);
isNull = false;
}
int32_t code = vectorConvertImpl(pParam, pDest);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
} else if (pRight->num == 1) {
sclMoveParamListData(pRight, 1, 0);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
SET_DOUBLE_VAL(pOut->data, (*func)(leftv, rightv, &isNull));
if (isNull) {
sclSetNull(pOut, i);
isNull = false;
}
}
*convert = VECTOR_DO_CONVERT;
} else {
*convert = VECTOR_UN_CONVERT;
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return TSDB_CODE_SUCCESS;
}
double mathAdd(double leftv, double rightv, bool *isNull) {
return leftv + rightv;
}
// TODO not correct for descending order scan
static void vectorMathAddHelper(SColumnInfoData* pLeftCol, SColumnInfoData* pRightCol, SColumnInfoData* pOutputCol, int32_t numOfRows, int32_t step, int32_t i) {
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
double mathSub(double leftv, double rightv, bool *isNull) {
return leftv - rightv;
}
double *output = (double *)pOutputCol->pData;
double mathMultiply(double leftv, double rightv, bool *isNull) {
return leftv * rightv;
}
double mathDivide(double leftv, double rightv, bool *isNull) {
double zero = 0;
if (0 == compareDoubleVal(&rightv, &zero)) {
*isNull = true;
return zero;
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < numOfRows; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) + getVectorDoubleValueFnRight(pRightCol->pData, 0);
}
pOutputCol->hasNull = pLeftCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pLeftCol->nullbitmap, BitmapLen(numOfRows));
}
}
return leftv / rightv;
}
double mathRemainder(double leftv, double rightv, bool *isNull) {
double zero = 0;
if (0 == compareDoubleVal(&rightv, &zero)) {
*isNull = true;
return zero;
static SColumnInfoData* doVectorConvert(SScalarParam* pInput, int32_t* doConvert) {
SScalarParam convertParam = {0};
int32_t code = doConvertHelper(&convertParam, doConvert, pInput, TSDB_DATA_TYPE_DOUBLE);
if (code != TSDB_CODE_SUCCESS) {
terrno = code;
return NULL;
}
return leftv - ((int64_t)(leftv / rightv)) * rightv;
if (*doConvert == VECTOR_DO_CONVERT) {
return convertParam.columnData;
} else {
return pInput->columnData;
}
}
void vectorAdd(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
vectorMath(pLeft, pRight, pOut, _ord, mathAdd);
static void doReleaseVec(SColumnInfoData* pCol, int32_t type) {
if (type == VECTOR_DO_CONVERT) {
colDataDestroy(pCol);
taosMemoryFree(pCol);
}
}
void vectorSub(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
vectorMath(pLeft, pRight, pOut, _ord, mathSub);
}
void vectorMathAdd(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
void vectorMultiply(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
vectorMath(pLeft, pRight, pOut, _ord, mathMultiply);
}
int32_t i = ((_ord) == TSDB_ORDER_ASC)? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC)? 1 : -1;
void vectorDivide(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
vectorMath(pLeft, pRight, pOut, _ord, mathDivide);
}
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
void vectorRemainder(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
vectorMath(pLeft, pRight, pOut, _ord, mathRemainder);
}
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
#if 0
void vectorAdd(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
double leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pLeft->num, .dataInBlock = false};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pRight->num, .dataInBlock = false};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(double));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
double *output = (double *)pOutputCol->pData;
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) + getVectorDoubleValueFnRight(pRightCol->pData, i);
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(double));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
}
pRight = &rightParam;
}
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
pOutputCol->hasNull = (pLeftCol->hasNull || pRightCol->hasNull);
if (pOutputCol->hasNull) {
int32_t numOfBitLen = BitmapLen(pLeft->numOfRows);
for (int32_t j = 0; j < numOfBitLen; ++j) {
pOutputCol->nullbitmap[j] = pLeftCol->nullbitmap[j] | pRightCol->nullbitmap[j];
}
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
SET_DOUBLE_VAL(pOut->data, leftv + rightv);
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
SET_DOUBLE_VAL(pOut->data, leftv + rightv);
}
} else if (pRight->num == 1) {
sclMoveParamListData(pRight, 1, 0);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
SET_DOUBLE_VAL(pOut->data, leftv + rightv);
}
} else if (pLeft->numOfRows == 1) {
vectorMathAddHelper(pRightCol, pLeftCol, pOutputCol, pRight->numOfRows, step, i);
} else if (pRight->numOfRows == 1) {
vectorMathAddHelper(pLeftCol, pRightCol, pOutputCol, pLeft->numOfRows, step, i);
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
void vectorSub(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
double leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pLeft->num};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pRight->num};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(double));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
// TODO not correct for descending order scan
static void vectorMathSubHelper(SColumnInfoData* pLeftCol, SColumnInfoData* pRightCol, SColumnInfoData* pOutputCol, int32_t numOfRows, int32_t step, int32_t factor, int32_t i) {
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(double));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
double *output = (double *)pOutputCol->pData;
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < numOfRows; i += step, output += 1) {
*output = (getVectorDoubleValueFnLeft(pLeftCol->pData, i) - getVectorDoubleValueFnRight(pRightCol->pData, 0)) * factor;
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
pOutputCol->hasNull = pLeftCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pLeftCol->nullbitmap, BitmapLen(numOfRows));
}
pRight = &rightParam;
}
}
void vectorMathSub(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeft->type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRight->type);
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
int32_t i = ((_ord) == TSDB_ORDER_ASC)? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC)? 1 : -1;
SET_DOUBLE_VAL(pOut->data, getVectorDoubleValueFnLeft(pLeft->data, i) - getVectorDoubleValueFnRight(pRight->data, i));
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
SET_DOUBLE_VAL(pOut->data,getVectorDoubleValueFnLeft(pLeft->data, 0) - getVectorDoubleValueFnRight(pRight->data,i));
double *output = (double *)pOutputCol->pData;
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) - getVectorDoubleValueFnRight(pRightCol->pData, i);
}
} else if (pRight->num == 1) {
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
}
SET_DOUBLE_VAL(pOut->data,getVectorDoubleValueFnLeft(pLeft->data,i) - getVectorDoubleValueFnRight(pRight->data,0));
pOutputCol->hasNull = (pLeftCol->hasNull || pRightCol->hasNull);
if (pOutputCol->hasNull) {
int32_t numOfBitLen = BitmapLen(pLeft->numOfRows);
for (int32_t j = 0; j < numOfBitLen; ++j) {
pOutputCol->nullbitmap[j] = pLeftCol->nullbitmap[j] | pRightCol->nullbitmap[j];
}
}
} else if (pLeft->numOfRows == 1) {
vectorMathSubHelper(pRightCol, pLeftCol, pOutputCol, pRight->numOfRows, step, -1, i);
} else if (pRight->numOfRows == 1) {
vectorMathSubHelper(pLeftCol, pRightCol, pOutputCol, pLeft->numOfRows, step, 1, i);
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
void vectorMultiply(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
double leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pLeft->num};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pRight->num};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(double));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(double));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
// TODO not correct for descending order scan
static void vectorMathMultiplyHelper(SColumnInfoData* pLeftCol, SColumnInfoData* pRightCol, SColumnInfoData* pOutputCol, int32_t numOfRows, int32_t step, int32_t i) {
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
double *output = (double *)pOutputCol->pData;
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < numOfRows; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) * getVectorDoubleValueFnRight(pRightCol->pData, 0);
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
pOutputCol->hasNull = pLeftCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pLeftCol->nullbitmap, BitmapLen(numOfRows));
}
pRight = &rightParam;
}
}
void vectorMathMultiply(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeft->type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRight->type);
int32_t i = ((_ord) == TSDB_ORDER_ASC)? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC)? 1 : -1;
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
SET_DOUBLE_VAL(pOut->data, getVectorDoubleValueFnLeft(pLeft->data, i) * getVectorDoubleValueFnRight(pRight->data, i));
double *output = (double *)pOutputCol->pData;
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) * getVectorDoubleValueFnRight(pRightCol->pData, i);
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
SET_DOUBLE_VAL(pOut->data,getVectorDoubleValueFnLeft(pLeft->data, 0) * getVectorDoubleValueFnRight(pRight->data,i));
}
} else if (pRight->num == 1) {
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
pOutputCol->hasNull = (pLeftCol->hasNull || pRightCol->hasNull);
if (pOutputCol->hasNull) {
int32_t numOfBitLen = BitmapLen(pLeft->numOfRows);
for (int32_t j = 0; j < numOfBitLen; ++j) {
pOutputCol->nullbitmap[j] = pLeftCol->nullbitmap[j] | pRightCol->nullbitmap[j];
}
SET_DOUBLE_VAL(pOut->data,getVectorDoubleValueFnLeft(pLeft->data,i) * getVectorDoubleValueFnRight(pRight->data,0));
}
} else if (pLeft->numOfRows == 1) {
vectorMathMultiplyHelper(pRightCol, pLeftCol, pOutputCol, pRight->numOfRows, step, i);
} else if (pRight->numOfRows == 1) {
vectorMathMultiplyHelper(pLeftCol, pRightCol, pOutputCol, pLeft->numOfRows, step, i);
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
void vectorDivide(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
double leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pLeft->num};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pRight->num};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(double));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
void vectorMathDivide(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(double));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
}
pRight = &rightParam;
}
int32_t i = ((_ord) == TSDB_ORDER_ASC)? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC)? 1 : -1;
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeft->type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRight->type);
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
SET_DOUBLE_VAL(pOut->data, getVectorDoubleValueFnLeft(pLeft->data, i) / getVectorDoubleValueFnRight(pRight->data, i));
double *output = (double *)pOutputCol->pData;
if (pLeft->numOfRows == pRight->numOfRows) { // check for the 0 value
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) / getVectorDoubleValueFnRight(pRightCol->pData, i);
}
} else if (pLeft->num == 1) {
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
pOutputCol->hasNull = (pLeftCol->hasNull || pRightCol->hasNull);
if (pOutputCol->hasNull) {
int32_t numOfBitLen = BitmapLen(pLeft->numOfRows);
for (int32_t j = 0; j < numOfBitLen; ++j) {
pOutputCol->nullbitmap[j] = pLeftCol->nullbitmap[j] | pRightCol->nullbitmap[j];
}
}
SET_DOUBLE_VAL(pOut->data,getVectorDoubleValueFnLeft(pLeft->data, 0) / getVectorDoubleValueFnRight(pRight->data,i));
} else if (pLeft->numOfRows == 1) {
if (colDataIsNull_f(pLeftCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < pRight->numOfRows; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, 0) / getVectorDoubleValueFnRight(pRightCol->pData, i);
}
pOutputCol->hasNull = pRightCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pRightCol->nullbitmap, BitmapLen(pRight->numOfRows));
}
}
} else if (pRight->num == 1) {
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
} else if (pRight->numOfRows == 1) {
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < pLeft->numOfRows; i += step, output += 1) {
*output = getVectorDoubleValueFnLeft(pLeftCol->pData, i) / getVectorDoubleValueFnRight(pRightCol->pData, 0);
}
pOutputCol->hasNull = pLeftCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pLeftCol->nullbitmap, BitmapLen(pLeft->numOfRows));
}
SET_DOUBLE_VAL(pOut->data,getVectorDoubleValueFnLeft(pLeft->data,i) / getVectorDoubleValueFnRight(pRight->data,0));
}
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
void vectorRemainder(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
double leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pLeft->num};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_DOUBLE, .num = pRight->num};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(double));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
void vectorMathRemainder(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(double));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
}
pRight = &rightParam;
}
int32_t i = ((_ord) == TSDB_ORDER_ASC)? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC)? 1 : -1;
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeft->type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRight->type);
_getDoubleValue_fn_t getVectorDoubleValueFnLeft = getVectorDoubleValueFn(pLeftCol->info.type);
_getDoubleValue_fn_t getVectorDoubleValueFnRight = getVectorDoubleValueFn(pRightCol->info.type);
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
double *output = (double *)pOutputCol->pData;
double zero = 0.0;
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
if (colDataIsNull_f(pLeftCol->nullbitmap, i) || colDataIsNull_f(pRightCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
double v, u = 0.0;
GET_TYPED_DATA(v, double, pRight->type, pRight->data);
if (getComparFunc(TSDB_DATA_TYPE_DOUBLE, 0)(&v, &u) == 0) {
sclSetNull(pOut, i);
double lx = getVectorDoubleValueFnLeft(pLeftCol->pData, i);
double rx = getVectorDoubleValueFnRight(pRightCol->pData, i);
if (compareDoubleVal(&zero, &rx)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
GET_TYPED_DATA(leftv, double, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, double, pRight->type, pRight->data);
SET_DOUBLE_VAL(pOut->data, left - ((int64_t)(left / right)) * right);
*output = lx - ((int64_t)(lx / rx)) * rx;
}
} else if (pLeft->num == 1) {
double left = getVectorDoubleValueFnLeft(pLeft->data, 0);
} else if (pLeft->numOfRows == 1) {
double lx = getVectorDoubleValueFnLeft(pLeftCol->pData, 0);
if (colDataIsNull_f(pLeftCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < pRight->numOfRows; i += step, output += 1) {
if (colDataIsNull_f(pRightCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
double rx = getVectorDoubleValueFnRight(pRightCol->pData, i);
if (compareDoubleVal(&zero, &rx)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
double v, u = 0.0;
GET_TYPED_DATA(v, double, pRight->type, pRight->data);
if (getComparFunc(TSDB_DATA_TYPE_DOUBLE, 0)(&v, &u) == 0) {
sclSetNull(pOut, i);
continue;
*output = lx - ((int64_t)(lx / rx)) * rx;
}
double right = getVectorDoubleValueFnRight(pRight->data, i);
SET_DOUBLE_VAL(pOut->data, left - ((int64_t)(left / right)) * right);
}
} else if (pRight->num == 1) {
double right = getVectorDoubleValueFnRight(pRight->data, 0);
} else if (pRight->numOfRows == 1) {
double rx = getVectorDoubleValueFnRight(pRightCol->pData, 0);
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < pLeft->numOfRows; i += step, output += 1) {
if (colDataIsNull_f(pRightCol->nullbitmap, i)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
double lx = getVectorDoubleValueFnLeft(pRightCol->pData, i);
if (compareDoubleVal(&zero, &lx)) {
colDataAppend(pOutputCol, i, NULL, true);
continue;
}
double v, u = 0.0;
GET_TYPED_DATA(v, double, pRight->type, pRight->data);
if (getComparFunc(TSDB_DATA_TYPE_DOUBLE, 0)(&v, &u) == 0) {
sclSetNull(pOut, i);
continue;
*output = lx - ((int64_t)(lx / rx)) * rx;
}
double left = getVectorDoubleValueFnLeft(pLeft->data, i);
SET_DOUBLE_VAL(pOut->data, left - ((int64_t)(left / right)) * right);
}
}
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
#endif
void vectorConcat(SScalarParam* pLeft, SScalarParam* pRight, void *out, int32_t _ord) {
#if 0
int32_t len = pLeft->bytes + pRight->bytes;
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
char *output = (char *)out;
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step, output += len) {
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += len) {
char* left = POINTER_SHIFT(pLeft->data, pLeft->bytes * i);
char* right = POINTER_SHIFT(pRight->data, pRight->bytes * i);
if (isNull(left, pLeft->type) || isNull(right, pRight->type)) {
if (isNull(left, pLeftCol->info.type) || isNull(right, pRight->info.type)) {
setVardataNull(output, TSDB_DATA_TYPE_BINARY);
continue;
}
......@@ -1170,10 +796,10 @@ void vectorConcat(SScalarParam* pLeft, SScalarParam* pRight, void *out, int32_t
memcpy(varDataVal(output) + varDataLen(left), varDataVal(right), varDataLen(right));
varDataSetLen(output, varDataLen(left) + varDataLen(right));
}
} else if (pLeft->num == 1) {
for (; i >= 0 && i < pRight->num; i += step, output += len) {
} else if (pLeft->numOfRows == 1) {
for (; i >= 0 && i < pRight->numOfRows; i += step, output += len) {
char *right = POINTER_SHIFT(pRight->data, pRight->bytes * i);
if (isNull(pLeft->data, pLeft->type) || isNull(right, pRight->type)) {
if (isNull(pLeft->data, pLeftCol->info.type) || isNull(right, pRight->info.type)) {
setVardataNull(output, TSDB_DATA_TYPE_BINARY);
continue;
}
......@@ -1182,10 +808,10 @@ void vectorConcat(SScalarParam* pLeft, SScalarParam* pRight, void *out, int32_t
memcpy(varDataVal(output) + varDataLen(pLeft->data), varDataVal(right), varDataLen(right));
varDataSetLen(output, varDataLen(pLeft->data) + varDataLen(right));
}
} else if (pRight->num == 1) {
for (; i >= 0 && i < pLeft->num; i += step, output += len) {
} else if (pRight->numOfRows == 1) {
for (; i >= 0 && i < pLeft->numOfRows; i += step, output += len) {
char* left = POINTER_SHIFT(pLeft->data, pLeft->bytes * i);
if (isNull(left, pLeft->type) || isNull(pRight->data, pRight->type)) {
if (isNull(left, pLeftCol->info.type) || isNull(pRight->data, pRight->info.type)) {
SET_DOUBLE_NULL(output);
continue;
}
......@@ -1195,257 +821,182 @@ void vectorConcat(SScalarParam* pLeft, SScalarParam* pRight, void *out, int32_t
varDataSetLen(output, varDataLen(left) + varDataLen(pRight->data));
}
}
#endif
}
static void vectorBitAndHelper(SColumnInfoData* pLeftCol, SColumnInfoData* pRightCol, SColumnInfoData* pOutputCol, int32_t numOfRows, int32_t step, int32_t i) {
_getBigintValue_fn_t getVectorBigintValueFnLeft = getVectorBigintValueFn(pLeftCol->info.type);
_getBigintValue_fn_t getVectorBigintValueFnRight = getVectorBigintValueFn(pRightCol->info.type);
void vectorBitAnd(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
int64_t leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_BIGINT, .num = pLeft->num};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_BIGINT, .num = pRight->num};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(int64_t));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
double *output = (double *)pOutputCol->pData;
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(int64_t));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
for (; i >= 0 && i < numOfRows; i += step, output += 1) {
*output = getVectorBigintValueFnLeft(pLeftCol->pData, i) & getVectorBigintValueFnRight(pRightCol->pData, 0);
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
pOutputCol->hasNull = pLeftCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pLeftCol->nullbitmap, BitmapLen(numOfRows));
}
pRight = &rightParam;
}
}
void vectorBitAnd(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
_getBigintValue_fn_t getVectorBigintValueFnLeft = getVectorBigintValueFn(pLeft->type);
_getBigintValue_fn_t getVectorBigintValueFnRight = getVectorBigintValueFn(pRight->type);
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
GET_TYPED_DATA(leftv, int64_t, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, int64_t, pRight->type, pRight->data);
_getBigintValue_fn_t getVectorBigintValueFnLeft = getVectorBigintValueFn(pLeftCol->info.type);
_getBigintValue_fn_t getVectorBigintValueFnRight = getVectorBigintValueFn(pRightCol->info.type);
SET_BIGINT_VAL(pOut->data, leftv & rightv);
int64_t *output = (int64_t *)pOutputCol->pData;
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
*output = getVectorBigintValueFnLeft(pLeftCol->pData, i) & getVectorBigintValueFnRight(pRightCol->pData, i);
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
GET_TYPED_DATA(leftv, int64_t, pLeft->type, pLeft->data);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(rightv, int64_t, pRight->type, pRight->data);
SET_BIGINT_VAL(pOut->data, leftv & rightv);
}
} else if (pRight->num == 1) {
sclMoveParamListData(pRight, 1, 0);
GET_TYPED_DATA(rightv, int64_t, pRight->type, pRight->data);
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
pOutputCol->hasNull = (pLeftCol->hasNull || pRightCol->hasNull);
if (pOutputCol->hasNull) {
int32_t numOfBitLen = BitmapLen(pLeft->numOfRows);
for (int32_t j = 0; j < numOfBitLen; ++j) {
pOutputCol->nullbitmap[j] = pLeftCol->nullbitmap[j] & pRightCol->nullbitmap[j];
}
GET_TYPED_DATA(leftv, int64_t, pLeft->type, pLeft->data);
SET_BIGINT_VAL(pOut->data, leftv & rightv);
}
} else if (pLeft->numOfRows == 1) {
vectorBitAndHelper(pRightCol, pLeftCol, pOutputCol, pRight->numOfRows, step, i);
} else if (pRight->numOfRows == 1) {
vectorBitAndHelper(pLeftCol, pRightCol, pOutputCol, pLeft->numOfRows, step, i);
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
void vectorBitOr(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
int64_t leftv = 0, rightv = 0;
SScalarParam leftParam = {.type = TSDB_DATA_TYPE_BIGINT, .num = pLeft->num};
SScalarParam rightParam = {.type = TSDB_DATA_TYPE_BIGINT, .num = pRight->num};
if (IS_VAR_DATA_TYPE(pLeft->type)) {
leftParam.data = taosMemoryCalloc(leftParam.num, sizeof(int64_t));
if (NULL == leftParam.data) {
sclError("malloc %d failed", (int32_t)(leftParam.num * sizeof(double)));
return;
}
leftParam.orig.data = leftParam.data;
static void vectorBitOrHelper(SColumnInfoData* pLeftCol, SColumnInfoData* pRightCol, SColumnInfoData* pOutputCol, int32_t numOfRows, int32_t step, int32_t i) {
_getBigintValue_fn_t getVectorBigintValueFnLeft = getVectorBigintValueFn(pLeftCol->info.type);
_getBigintValue_fn_t getVectorBigintValueFnRight = getVectorBigintValueFn(pRightCol->info.type);
if (vectorConvertImpl(pLeft, &leftParam)) {
return;
}
pLeft = &leftParam;
}
if (IS_VAR_DATA_TYPE(pRight->type)) {
rightParam.data = taosMemoryCalloc(rightParam.num, sizeof(int64_t));
if (NULL == rightParam.data) {
sclError("malloc %d failed", (int32_t)(rightParam.num * sizeof(double)));
sclFreeParam(&leftParam);
return;
int64_t *output = (int64_t *)pOutputCol->pData;
if (colDataIsNull_f(pRightCol->nullbitmap, 0)) { // Set pLeft->numOfRows NULL value
// TODO set numOfRows NULL value
} else {
int64_t rx = getVectorBigintValueFnRight(pRightCol->pData, 0);
for (; i >= 0 && i < numOfRows; i += step, output += 1) {
*output = getVectorBigintValueFnLeft(pLeftCol->pData, i) | rx;
}
rightParam.orig.data = rightParam.data;
if (vectorConvertImpl(pRight, &rightParam)) {
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
return;
pOutputCol->hasNull = pLeftCol->hasNull;
if (pOutputCol->hasNull) {
memcpy(pOutputCol->nullbitmap, pLeftCol->nullbitmap, BitmapLen(numOfRows));
}
pRight = &rightParam;
}
}
_getBigintValue_fn_t getVectorBigintValueFnLeft = getVectorBigintValueFn(pLeft->type);
_getBigintValue_fn_t getVectorBigintValueFnRight = getVectorBigintValueFn(pRight->type);
void vectorBitOr(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
SColumnInfoData *pOutputCol = pOut->columnData;
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
GET_TYPED_DATA(leftv, int64_t, pLeft->type, pLeft->data);
GET_TYPED_DATA(rightv, int64_t, pRight->type, pRight->data);
int32_t leftConvert = 0, rightConvert = 0;
SColumnInfoData *pLeftCol = doVectorConvert(pLeft, &leftConvert);
SColumnInfoData *pRightCol = doVectorConvert(pRight, &rightConvert);
SET_BIGINT_VAL(pOut->data, leftv | rightv);
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
GET_TYPED_DATA(leftv, int64_t, pLeft->type, pLeft->data);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
_getBigintValue_fn_t getVectorBigintValueFnLeft = getVectorBigintValueFn(pLeftCol->info.type);
_getBigintValue_fn_t getVectorBigintValueFnRight = getVectorBigintValueFn(pRightCol->info.type);
GET_TYPED_DATA(rightv, int64_t, pRight->type, pRight->data);
SET_BIGINT_VAL(pOut->data, leftv | rightv);
int64_t *output = (int64_t *)pOutputCol->pData;
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step, output += 1) {
*output = getVectorBigintValueFnLeft(pLeftCol->pData, i) | getVectorBigintValueFnRight(pRightCol->pData, i);
}
} else if (pRight->num == 1) {
sclMoveParamListData(pRight, 1, 0);
GET_TYPED_DATA(rightv, int64_t, pRight->type, pRight->data);
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
continue;
}
GET_TYPED_DATA(leftv, int64_t, pLeft->type, pLeft->data);
SET_BIGINT_VAL(pOut->data, leftv | rightv);
pOutputCol->hasNull = (pLeftCol->hasNull || pRightCol->hasNull);
if (pOutputCol->hasNull) {
int32_t numOfBitLen = BitmapLen(pLeft->numOfRows);
for (int32_t j = 0; j < numOfBitLen; ++j) {
pOutputCol->nullbitmap[j] = pLeftCol->nullbitmap[j] | pRightCol->nullbitmap[j];
}
}
} else if (pLeft->numOfRows == 1) {
vectorBitOrHelper(pRightCol, pLeftCol, pOutputCol, pRight->numOfRows, step, i);
} else if (pRight->numOfRows == 1) {
vectorBitOrHelper(pLeftCol, pRightCol, pOutputCol, pLeft->numOfRows, step, i);
}
sclFreeParam(&leftParam);
sclFreeParam(&rightParam);
doReleaseVec(pLeftCol, leftConvert);
doReleaseVec(pRightCol, rightConvert);
}
void vectorCompareImpl(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord, int32_t optr) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
__compar_fn_t fp = filterGetCompFunc(pLeft->type, optr);
bool res = false;
if (pLeft->num == pRight->num) {
for (; i < pRight->num && i >= 0; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
continue;
}
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->numOfRows, pRight->numOfRows) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
__compar_fn_t fp = filterGetCompFunc(GET_PARAM_TYPE(pLeft), optr);
res = filterDoCompare(fp, optr, pLeft->data, pRight->data);
pOut->numOfRows = TMAX(pLeft->numOfRows, pRight->numOfRows);
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
}
} else if (pLeft->num == 1) {
sclMoveParamListData(pLeft, 1, 0);
for (; i >= 0 && i < pRight->num; i += step) {
sclMoveParamListData(pRight, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, 0) || sclIsNull(pRight, i)) {
sclSetNull(pOut, i);
if (pRight->pHashFilter != NULL) {
for (; i >= 0 && i < pLeft->numOfRows; i += step) {
if (colDataIsNull(pLeft->columnData, pLeft->numOfRows, i, NULL) /*||
colDataIsNull(pRight->columnData, pRight->numOfRows, i, NULL)*/) {
continue;
}
char *pLeftData = colDataGetData(pLeft->columnData, i);
bool res = filterDoCompare(fp, optr, pLeftData, pRight->pHashFilter);
colDataAppend(pOut->columnData, i, (char *)&res, false);
}
return;
}
res = filterDoCompare(fp, optr, pLeft->data, pRight->data);
if (pLeft->numOfRows == pRight->numOfRows) {
for (; i < pRight->numOfRows && i >= 0; i += step) {
if (colDataIsNull(pLeft->columnData, pLeft->numOfRows, i, NULL) ||
colDataIsNull(pRight->columnData, pRight->numOfRows, i, NULL)) {
continue; // TODO set null or ignore
}
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
char *pLeftData = colDataGetData(pLeft->columnData, i);
char *pRightData = colDataGetData(pRight->columnData, i);
bool res = filterDoCompare(fp, optr, pLeftData, pRightData);
colDataAppend(pOut->columnData, i, (char *)&res, false);
}
} else if (pRight->num == 1) {
sclMoveParamListData(pRight, 1, 0);
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i) || sclIsNull(pRight, 0)) {
sclSetNull(pOut, i);
} else if (pRight->numOfRows == 1) {
char *pRightData = colDataGetData(pRight->columnData, 0);
ASSERT(pLeft->pHashFilter == NULL);
for (; i >= 0 && i < pLeft->numOfRows; i += step) {
if (colDataIsNull(pLeft->columnData, pLeft->numOfRows, i, NULL) /*||
colDataIsNull(pRight->columnData, pRight->numOfRows, i, NULL)*/) {
continue;
}
res = filterDoCompare(fp, optr, pLeft->data, pRight->data);
char *pLeftData = colDataGetData(pLeft->columnData, i);
bool res = filterDoCompare(fp, optr, pLeftData, pRightData);
colDataAppend(pOut->columnData, i, (char *)&res, false);
}
} else if (pLeft->numOfRows == 1) {
char *pLeftData = colDataGetData(pLeft->columnData, 0);
for (; i >= 0 && i < pRight->numOfRows; i += step) {
if (colDataIsNull(pRight->columnData, pRight->numOfRows, i, NULL) /*||
colDataIsNull(pRight->columnData, pRight->numOfRows, i, NULL)*/) {
continue;
}
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
char *pRightData = colDataGetData(pLeft->columnData, i);
bool res = filterDoCompare(fp, optr, pLeftData, pRightData);
colDataAppend(pOut->columnData, i, (char *)&res, false);
}
}
}
......@@ -1459,21 +1010,19 @@ void vectorCompare(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut
SScalarParam *param1 = NULL;
SScalarParam *param2 = NULL;
int32_t type = 0;
if (pLeftOut.type) {
if (pLeftOut.columnData != NULL) {
param1 = &pLeftOut;
} else {
param1 = pLeft;
}
if (pRightOut.type) {
if (pRightOut.columnData != NULL) {
param2 = &pRightOut;
} else {
param2 = pRight;
}
vectorCompareImpl(param1, param2, pOut, _ord, optr);
sclFreeParam(&pLeftOut);
sclFreeParam(&pRightOut);
}
......@@ -1527,63 +1076,44 @@ void vectorNotMatch(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOu
}
void vectorIsNull(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
bool res = false;
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i)) {
res = true;
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
continue;
for(int32_t i = 0; i < pLeft->numOfRows; ++i) {
int8_t v = 0;
if (colDataIsNull(pLeft->columnData, pLeft->numOfRows, i, NULL)) {
v = 1;
}
res = false;
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
colDataAppend(pOut->columnData, i, (char*) &v, false);
}
pOut->numOfRows = pLeft->numOfRows;
}
void vectorNotNull(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
int32_t i = ((_ord) == TSDB_ORDER_ASC) ? 0 : TMAX(pLeft->num, pRight->num) - 1;
int32_t step = ((_ord) == TSDB_ORDER_ASC) ? 1 : -1;
bool res = false;
for (; i >= 0 && i < pLeft->num; i += step) {
sclMoveParamListData(pLeft, 1, i);
sclMoveParamListData(pOut, 1, i);
if (sclIsNull(pLeft, i)) {
res = false;
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
continue;
for(int32_t i = 0; i < pLeft->numOfRows; ++i) {
int8_t v = 1;
if (colDataIsNull(pLeft->columnData, pLeft->numOfRows, i, NULL)) {
v = 0;
}
res = true;
SET_TYPED_DATA(pOut->data, TSDB_DATA_TYPE_BOOL, res);
colDataAppend(pOut->columnData, i, (char*) &v, false);
}
pOut->numOfRows = pLeft->numOfRows;
}
void vectorIsTrue(SScalarParam* pLeft, SScalarParam* pRight, SScalarParam *pOut, int32_t _ord) {
vectorConvertImpl(pLeft, pOut);
}
_bin_scalar_fn_t getBinScalarOperatorFn(int32_t binFunctionId) {
switch (binFunctionId) {
case OP_TYPE_ADD:
return vectorAdd;
return vectorMathAdd;
case OP_TYPE_SUB:
return vectorSub;
return vectorMathSub;
case OP_TYPE_MULTI:
return vectorMultiply;
return vectorMathMultiply;
case OP_TYPE_DIV:
return vectorDivide;
return vectorMathDivide;
case OP_TYPE_MOD:
return vectorRemainder;
return vectorMathRemainder;
case OP_TYPE_GREATER_THAN:
return vectorGreater;
case OP_TYPE_GREATER_EQUAL:
......@@ -1622,6 +1152,4 @@ _bin_scalar_fn_t getBinScalarOperatorFn(int32_t binFunctionId) {
assert(0);
return NULL;
}
}
}
\ No newline at end of file
source/libs/scalar/test/scalar/scalarTests.cpp
浏览文件 @ 4bd42a2d
......@@ -269,7 +269,7 @@ TEST(constantTest, bigint_add_bigint) {
ASSERT_EQ(nodeType(res), QUERY_NODE_VALUE);
SValueNode *v = (SValueNode *)res;
ASSERT_EQ(v->node.resType.type, TSDB_DATA_TYPE_DOUBLE);
ASSERT_EQ(v->datum.d, (scltLeftV + scltRightV));
ASSERT_FLOAT_EQ(v->datum.d, (scltLeftV + scltRightV));
nodesDestroyNode(res);
}
......@@ -285,7 +285,7 @@ TEST(constantTest, double_sub_bigint) {
ASSERT_EQ(nodeType(res), QUERY_NODE_VALUE);
SValueNode *v = (SValueNode *)res;
ASSERT_EQ(v->node.resType.type, TSDB_DATA_TYPE_DOUBLE);
ASSERT_EQ(v->datum.d, (scltLeftVd - scltRightV));
ASSERT_FLOAT_EQ(v->datum.d, (scltLeftVd - scltRightV));
nodesDestroyNode(res);
}
......@@ -340,7 +340,6 @@ TEST(constantTest, int_or_binary) {
nodesDestroyNode(res);
}
TEST(constantTest, int_greater_double) {
SNode *pLeft = NULL, *pRight = NULL, *opNode = NULL, *res = NULL;
scltMakeValueNode(&pLeft, TSDB_DATA_TYPE_INT, &scltLeftV);
......@@ -479,8 +478,6 @@ TEST(constantTest, int_not_equal_smallint2) {
nodesDestroyNode(res);
}
TEST(constantTest, int_in_smallint1) {
scltInitLogFile();
......@@ -851,7 +848,6 @@ TEST(constantTest, int_add_int_is_true2) {
nodesDestroyNode(res);
}
TEST(constantTest, int_greater_int_is_true1) {
SNode *pLeft = NULL, *pRight = NULL, *opNode = NULL, *res = NULL;
int32_t leftv = 1, rightv = 1;
......@@ -913,8 +909,6 @@ TEST(constantTest, greater_and_lower) {
nodesDestroyNode(res);
}
TEST(columnTest, smallint_value_add_int_column) {
scltInitLogFile();
......@@ -967,7 +961,6 @@ TEST(columnTest, bigint_column_multi_binary_column) {
scltMakeColumnNode(&pRight, &src, TSDB_DATA_TYPE_BINARY, 5, rowNum, rightv);
scltMakeOpNode(&opNode, OP_TYPE_MULTI, TSDB_DATA_TYPE_DOUBLE, pLeft, pRight);
SArray *blockList = taosArrayInit(1, POINTER_BYTES);
taosArrayPush(blockList, &src);
SColumnInfo colInfo = createColumnInfo(1, TSDB_DATA_TYPE_DOUBLE, sizeof(double));
......@@ -1271,7 +1264,6 @@ TEST(columnTest, binary_column_like_binary) {
nodesDestroyNode(opNode);
}
TEST(columnTest, binary_column_is_true) {
SNode *pLeft = NULL, *opNode = NULL;
char leftv[5][5]= {0};
......@@ -1286,7 +1278,7 @@ TEST(columnTest, binary_column_is_true) {
}
int32_t rowNum = sizeof(leftv)/sizeof(leftv[0]);
scltMakeColumnNode(&pLeft, &src, TSDB_DATA_TYPE_BINARY, 3, rowNum, leftv);
scltMakeColumnNode(&pLeft, &src, TSDB_DATA_TYPE_BINARY, 5, rowNum, leftv);
scltMakeOpNode(&opNode, OP_TYPE_IS_TRUE, TSDB_DATA_TYPE_BOOL, pLeft, NULL);
......@@ -1471,23 +1463,26 @@ void scltMakeDataBlock(SScalarParam **pInput, int32_t type, void *pVal, int32_t
}
}
input->type = type;
input->num = num;
input->data = taosMemoryCalloc(num, bytes);
input->bytes = bytes;
input->columnData = (SColumnInfoData*) taosMemoryCalloc(1, sizeof(SColumnInfoData));
input->numOfRows = num;
input->columnData->info = createColumnInfo(0, type, bytes);
blockDataEnsureColumnCapacity(input->columnData, num);
if (setVal) {
for (int32_t i = 0; i < num; ++i) {
memcpy(input->data + i * bytes, pVal, bytes);
colDataAppend(input->columnData, i, (const char*) pVal, false);
}
} else {
memset(input->data, 0, num * bytes);
// memset(input->data, 0, num * bytes);
}
*pInput = input;
}
void scltDestroyDataBlock(SScalarParam *pInput) {
taosMemoryFree(pInput->data);
colDataDestroy(pInput->columnData);
taosMemoryFree(pInput->columnData);
taosMemoryFree(pInput);
}
......@@ -1500,25 +1495,25 @@ TEST(ScalarFunctionTest, absFunction_constant) {
//TINYINT
int8_t val_tinyint = 10;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), val_tinyint);
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), val_tinyint);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
val_tinyint = -10;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), -val_tinyint);
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), -val_tinyint);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1526,25 +1521,25 @@ TEST(ScalarFunctionTest, absFunction_constant) {
//SMALLINT
int16_t val_smallint = 10;
type = TSDB_DATA_TYPE_SMALLINT;
scltMakeDataBlock(&pInput, type, &val_smallint, 1, true);
scltMakeDataBlock(&pInput, type, &val_smallint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int16_t *)pOutput->data + i), val_smallint);
ASSERT_EQ(*((int16_t *)colDataGetData(pOutput->columnData, i)), val_smallint);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
val_smallint = -10;
scltMakeDataBlock(&pInput, type, &val_smallint, 1, true);
scltMakeDataBlock(&pInput, type, &val_smallint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int16_t *)pOutput->data + i), -val_smallint);
ASSERT_EQ(*((int16_t *)colDataGetData(pOutput->columnData, i)), -val_smallint);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1552,25 +1547,25 @@ TEST(ScalarFunctionTest, absFunction_constant) {
//INT
int32_t val_int = 10;
type = TSDB_DATA_TYPE_INT;
scltMakeDataBlock(&pInput, type, &val_int, 1, true);
scltMakeDataBlock(&pInput, type, &val_int, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int32_t *)pOutput->data + i), val_int);
ASSERT_EQ(*((int32_t *)colDataGetData(pOutput->columnData, i)), val_int);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
val_int = -10;
scltMakeDataBlock(&pInput, type, &val_int, 1, true);
scltMakeDataBlock(&pInput, type, &val_int, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int32_t *)pOutput->data + i), -val_int);
ASSERT_EQ(*((int32_t *)colDataGetData(pOutput->columnData, i)), -val_int);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1578,13 +1573,13 @@ TEST(ScalarFunctionTest, absFunction_constant) {
//BIGINT
int64_t val_bigint = 10;
type = TSDB_DATA_TYPE_BIGINT;
scltMakeDataBlock(&pInput, type, &val_bigint, 1, true);
scltMakeDataBlock(&pInput, type, &val_bigint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int64_t *)pOutput->data + i), val_bigint);
ASSERT_EQ(*((int64_t *)colDataGetData(pOutput->columnData, i)), val_bigint);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1596,7 +1591,7 @@ TEST(ScalarFunctionTest, absFunction_constant) {
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int64_t *)pOutput->data + i), -val_bigint);
ASSERT_EQ(*((int64_t *)colDataGetData(pOutput->columnData, i)), -val_bigint);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1604,29 +1599,29 @@ TEST(ScalarFunctionTest, absFunction_constant) {
//FLOAT
float val_float = 10.15;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("float before ABS:%f\n", *(float *)pInput->data);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), val_float);
PRINTF("float after ABS:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), val_float);
PRINTF("float after ABS:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
val_float = -10.15;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("float before ABS:%f\n", *(float *)pInput->data);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), -val_float);
PRINTF("float after ABS:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), -val_float);
PRINTF("float after ABS:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1634,13 +1629,13 @@ TEST(ScalarFunctionTest, absFunction_constant) {
//DOUBLE
double val_double = 10.15;
type = TSDB_DATA_TYPE_DOUBLE;
scltMakeDataBlock(&pInput, type, &val_double, 1, true);
scltMakeDataBlock(&pInput, type, &val_double, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), val_double);
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), val_double);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1652,7 +1647,7 @@ TEST(ScalarFunctionTest, absFunction_constant) {
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), -val_double);
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), -val_double);
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1671,15 +1666,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint + i;
PRINTF("tiny_int before ABS:%d\n", *((int8_t *)pInput->data + i));
int8_t v = val_tinyint + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("tiny_int before ABS:%d\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), val_tinyint + i);
PRINTF("tiny_int after ABS:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), val_tinyint + i);
PRINTF("tiny_int after ABS:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1688,15 +1684,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint + i;
PRINTF("tiny_int before ABS:%d\n", *((int8_t *)pInput->data + i));
int8_t v = val_tinyint + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("tiny_int before ABS:%d\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), -(val_tinyint + i));
PRINTF("tiny_int after ABS:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), -(val_tinyint + i));
PRINTF("tiny_int after ABS:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1707,16 +1704,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int16_t *)pInput->data + i) = val_smallint + i;
PRINTF("small_int before ABS:%d\n", *((int16_t *)pInput->data + i));
int16_t v = val_smallint + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("small_int before ABS:%d\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int16_t *)pOutput->data + i), val_smallint + i);
PRINTF("small_int after ABS:%d\n", *((int16_t *)pOutput->data + i));
ASSERT_EQ(*((int16_t *)colDataGetData(pOutput->columnData, i)), val_smallint + i);
PRINTF("small_int after ABS:%d\n", *((int16_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1725,15 +1722,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int16_t *)pInput->data + i) = val_smallint + i;
PRINTF("small_int before ABS:%d\n", *((int16_t *)pInput->data + i));
int16_t v = val_smallint + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("small_int before ABS:%d\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int16_t *)pOutput->data + i), -(val_smallint + i));
PRINTF("small_int after ABS:%d\n", *((int16_t *)pOutput->data + i));
ASSERT_EQ(*((int16_t *)colDataGetData(pOutput->columnData, i)), -(val_smallint + i));
PRINTF("small_int after ABS:%d\n", *((int16_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1744,16 +1742,17 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int32_t *)pInput->data + i) = val_int + i;
PRINTF("int before ABS:%d\n", *((int32_t *)pInput->data + i));
int32_t v = val_int + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("int before ABS:%d\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int32_t *)pOutput->data + i), val_int + i);
PRINTF("int after ABS:%d\n", *((int32_t *)pOutput->data + i));
ASSERT_EQ(*((int32_t *)colDataGetData(pOutput->columnData, i)), val_int + i);
PRINTF("int after ABS:%d\n", *((int32_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1762,15 +1761,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int32_t *)pInput->data + i) = val_int + i;
PRINTF("int before ABS:%d\n", *((int32_t *)pInput->data + i));
int32_t v = val_int + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("int before ABS:%d\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int32_t *)pOutput->data + i), -(val_int + i));
PRINTF("int after ABS:%d\n", *((int32_t *)pOutput->data + i));
ASSERT_EQ(*((int32_t *)colDataGetData(pOutput->columnData, i)), -(val_int + i));
PRINTF("int after ABS:%d\n", *((int32_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1781,15 +1781,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float + i;
PRINTF("float before ABS:%f\n", *((float *)pInput->data + i));
float v = val_float + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("float before ABS:%f\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), val_float + i);
PRINTF("float after ABS:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), val_float + i);
PRINTF("float after ABS:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1798,15 +1799,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float + i;
PRINTF("float before ABS:%f\n", *((float *)pInput->data + i));
float v = val_float + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("float before ABS:%f\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), -(val_float + i));
PRINTF("float after ABS:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), -(val_float + i));
PRINTF("float after ABS:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1817,15 +1819,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((double *)pInput->data + i) = val_double + i;
PRINTF("double before ABS:%f\n", *((double *)pInput->data + i));
double v = val_double + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("double before ABS:%f\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), val_double + i);
PRINTF("double after ABS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), val_double + i);
PRINTF("double after ABS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1834,15 +1837,16 @@ TEST(ScalarFunctionTest, absFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((double *)pInput->data + i) = val_double + i;
PRINTF("double before ABS:%f\n", *((double *)pInput->data + i));
double v = val_double + i;
colDataAppend(pInput->columnData, i, (const char*) &v, false);
PRINTF("double before ABS:%f\n", v);
}
code = absFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), -(val_double + i));
PRINTF("double after ABS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), -(val_double + i));
PRINTF("double after ABS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -1860,15 +1864,15 @@ TEST(ScalarFunctionTest, sinFunction_constant) {
//TINYINT
int8_t val_tinyint = 13;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before SIN:%d\n", *((int8_t *)pInput->data));
code = sinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after SIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after SIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1876,15 +1880,15 @@ TEST(ScalarFunctionTest, sinFunction_constant) {
//FLOAT
float val_float = 13.00;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before SIN:%f\n", *((float *)pInput->data));
code = sinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after SIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after SIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -1907,15 +1911,15 @@ TEST(ScalarFunctionTest, sinFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before SIN:%d\n", *((int8_t *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_tinyint[i], false);
PRINTF("tiny_int before SIN:%d\n", *(int8_t *)colDataGetData(pInput->columnData, i));
}
code = sinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after SIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after SIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1926,15 +1930,15 @@ TEST(ScalarFunctionTest, sinFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before SIN:%f\n", *((float *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_float[i], false);
PRINTF("float before SIN:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = sinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after SIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after SIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -1952,15 +1956,15 @@ TEST(ScalarFunctionTest, cosFunction_constant) {
//TINYINT
int8_t val_tinyint = 13;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before COS:%d\n", *((int8_t *)pInput->data));
code = cosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after COS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after COS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -1968,15 +1972,15 @@ TEST(ScalarFunctionTest, cosFunction_constant) {
//FLOAT
float val_float = 13.00;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before COS:%f\n", *((float *)pInput->data));
code = cosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after COS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after COS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -1997,15 +2001,15 @@ TEST(ScalarFunctionTest, cosFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before COS:%d\n", *((int8_t *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_tinyint[i], false);
PRINTF("tiny_int before COS:%d\n", *(int8_t *)colDataGetData(pInput->columnData, i));
}
code = cosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after COS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after COS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2016,15 +2020,15 @@ TEST(ScalarFunctionTest, cosFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before COS:%f\n", *((float *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_float[i], false);
PRINTF("float before COS:%f\n", *(float *)colDataGetData(pInput->columnData, i));
}
code = cosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after COS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after COS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2042,15 +2046,15 @@ TEST(ScalarFunctionTest, tanFunction_constant) {
//TINYINT
int8_t val_tinyint = 13;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before TAN:%d\n", *((int8_t *)pInput->data));
code = tanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after TAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after TAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2058,15 +2062,15 @@ TEST(ScalarFunctionTest, tanFunction_constant) {
//FLOAT
float val_float = 13.00;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before TAN:%f\n", *((float *)pInput->data));
code = tanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after TAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after TAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2087,15 +2091,15 @@ TEST(ScalarFunctionTest, tanFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before TAN:%d\n", *((int8_t *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_tinyint[i], false);
PRINTF("tiny_int before TAN:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = tanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after TAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after TAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2106,15 +2110,15 @@ TEST(ScalarFunctionTest, tanFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before TAN:%f\n", *((float *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_float[i], false);
PRINTF("float before TAN:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = tanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after TAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after TAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2132,15 +2136,15 @@ TEST(ScalarFunctionTest, asinFunction_constant) {
//TINYINT
int8_t val_tinyint = 1;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before ASIN:%d\n", *((int8_t *)pInput->data));
code = asinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after ASIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after ASIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2148,15 +2152,15 @@ TEST(ScalarFunctionTest, asinFunction_constant) {
//FLOAT
float val_float = 1.00;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before ASIN:%f\n", *((float *)pInput->data));
code = asinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after ASIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after ASIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2178,15 +2182,15 @@ TEST(ScalarFunctionTest, asinFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before ASIN:%d\n", *((int8_t *)pInput->data + i));
colDataAppend(pInput->columnData, i, (const char*) &val_tinyint[i], false);
PRINTF("tiny_int before ASIN:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = asinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after ASIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after ASIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2197,15 +2201,15 @@ TEST(ScalarFunctionTest, asinFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before ASIN:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before ASIN:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = asinFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after ASIN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after ASIN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2223,15 +2227,15 @@ TEST(ScalarFunctionTest, acosFunction_constant) {
//TINYINT
int8_t val_tinyint = 1;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before ACOS:%d\n", *((int8_t *)pInput->data));
code = acosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after ACOS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after ACOS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2239,15 +2243,15 @@ TEST(ScalarFunctionTest, acosFunction_constant) {
//FLOAT
float val_float = 1.00;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before ACOS:%f\n", *((float *)pInput->data));
code = acosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after ACOS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after ACOS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2268,15 +2272,15 @@ TEST(ScalarFunctionTest, acosFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before ACOS:%d\n", *((int8_t *)pInput->data + i));
*((int8_t *)colDataGetData(pInput->columnData, i)) = val_tinyint[i];
PRINTF("tiny_int before ACOS:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = acosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after ACOS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after ACOS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2287,15 +2291,15 @@ TEST(ScalarFunctionTest, acosFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before ACOS:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before ACOS:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = acosFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after ACOS:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after ACOS:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2313,15 +2317,15 @@ TEST(ScalarFunctionTest, atanFunction_constant) {
//TINYINT
int8_t val_tinyint = 1;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before ATAN:%d\n", *((int8_t *)pInput->data));
code = atanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after ATAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after ATAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2329,15 +2333,15 @@ TEST(ScalarFunctionTest, atanFunction_constant) {
//FLOAT
float val_float = 1.00;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before ATAN:%f\n", *((float *)pInput->data));
code = atanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after ATAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after ATAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2358,15 +2362,15 @@ TEST(ScalarFunctionTest, atanFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before ATAN:%d\n", *((int8_t *)pInput->data + i));
*((int8_t *)colDataGetData(pInput->columnData, i)) = val_tinyint[i];
PRINTF("tiny_int before ATAN:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = atanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after ATAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after ATAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2377,15 +2381,15 @@ TEST(ScalarFunctionTest, atanFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before ATAN:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before ATAN:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = atanFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after ATAN:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after ATAN:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2402,15 +2406,15 @@ TEST(ScalarFunctionTest, ceilFunction_constant) {
//TINYINT
int8_t val_tinyint = 10;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("tiny_int before CEIL:%d\n", *((int8_t *)pInput->data));
code = ceilFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), (int8_t)result);
PRINTF("tiny_int after CEIL:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), (int8_t)result);
PRINTF("tiny_int after CEIL:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2418,15 +2422,15 @@ TEST(ScalarFunctionTest, ceilFunction_constant) {
//FLOAT
float val_float = 9.5;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("float before CEIL:%f\n", *((float *)pInput->data));
code = ceilFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), (float)result);
PRINTF("float after CEIL:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), (float)result);
PRINTF("float after CEIL:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2446,15 +2450,15 @@ TEST(ScalarFunctionTest, ceilFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before CEIL:%d\n", *((int8_t *)pInput->data + i));
*((int8_t *)colDataGetData(pInput->columnData, i)) = val_tinyint[i];
PRINTF("tiny_int before CEIL:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = ceilFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), result[i]);
PRINTF("tiny_int after CEIL:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after CEIL:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2465,15 +2469,15 @@ TEST(ScalarFunctionTest, ceilFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before CEIL:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before CEIL:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = ceilFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), result[i]);
PRINTF("float after CEIL:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after CEIL:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2490,15 +2494,15 @@ TEST(ScalarFunctionTest, floorFunction_constant) {
//TINYINT
int8_t val_tinyint = 10;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("tiny_int before FLOOR:%d\n", *((int8_t *)pInput->data));
code = floorFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), (int8_t)result);
PRINTF("tiny_int after FLOOR:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), (int8_t)result);
PRINTF("tiny_int after FLOOR:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2506,15 +2510,15 @@ TEST(ScalarFunctionTest, floorFunction_constant) {
//FLOAT
float val_float = 10.5;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("float before FLOOR:%f\n", *((float *)pInput->data));
code = floorFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), (float)result);
PRINTF("float after FLOOR:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), (float)result);
PRINTF("float after FLOOR:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2534,15 +2538,15 @@ TEST(ScalarFunctionTest, floorFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before FLOOR:%d\n", *((int8_t *)pInput->data + i));
*((int8_t *)colDataGetData(pInput->columnData, i)) = val_tinyint[i];
PRINTF("tiny_int before FLOOR:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = floorFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), result[i]);
PRINTF("tiny_int after FLOOR:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after FLOOR:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2553,15 +2557,15 @@ TEST(ScalarFunctionTest, floorFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before FLOOR:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before FLOOR:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = floorFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), result[i]);
PRINTF("float after FLOOR:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after FLOOR:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2578,15 +2582,15 @@ TEST(ScalarFunctionTest, roundFunction_constant) {
//TINYINT
int8_t val_tinyint = 10;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("tiny_int before ROUND:%d\n", *((int8_t *)pInput->data));
code = roundFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), (int8_t)result);
PRINTF("tiny_int after ROUND:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), (int8_t)result);
PRINTF("tiny_int after ROUND:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2594,15 +2598,15 @@ TEST(ScalarFunctionTest, roundFunction_constant) {
//FLOAT
float val_float = 9.5;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
PRINTF("float before ROUND:%f\n", *((float *)pInput->data));
code = roundFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), (float)result);
PRINTF("float after ROUND:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), (float)result);
PRINTF("float after ROUND:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2622,15 +2626,15 @@ TEST(ScalarFunctionTest, roundFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before ROUND:%d\n", *((int8_t *)pInput->data + i));
*((int8_t *)colDataGetData(pInput->columnData, i)) = val_tinyint[i];
PRINTF("tiny_int before ROUND:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = roundFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((int8_t *)pOutput->data + i), result[i]);
PRINTF("tiny_int after ROUND:%d\n", *((int8_t *)pOutput->data + i));
ASSERT_EQ(*((int8_t *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after ROUND:%d\n", *((int8_t *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2641,15 +2645,15 @@ TEST(ScalarFunctionTest, roundFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, type, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before ROUND:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before ROUND:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = roundFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((float *)pOutput->data + i), result[i]);
PRINTF("float after ROUND:%f\n", *((float *)pOutput->data + i));
ASSERT_EQ(*((float *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after ROUND:%f\n", *((float *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2667,15 +2671,15 @@ TEST(ScalarFunctionTest, sqrtFunction_constant) {
//TINYINT
int8_t val_tinyint = 25;
type = TSDB_DATA_TYPE_TINYINT;
scltMakeDataBlock(&pInput, type, &val_tinyint, 1, true);
scltMakeDataBlock(&pInput, type, &val_tinyint, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("tiny_int before SQRT:%d\n", *((int8_t *)pInput->data));
code = sqrtFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after SQRT:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after SQRT:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2683,15 +2687,15 @@ TEST(ScalarFunctionTest, sqrtFunction_constant) {
//FLOAT
float val_float = 25.0;
type = TSDB_DATA_TYPE_FLOAT;
scltMakeDataBlock(&pInput, type, &val_float, 1, true);
scltMakeDataBlock(&pInput, type, &val_float, rowNum, true);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
PRINTF("float before SQRT:%f\n", *((float *)pInput->data));
code = sqrtFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after SQRT:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after SQRT:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2712,15 +2716,15 @@ TEST(ScalarFunctionTest, sqrtFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput->data + i) = val_tinyint[i];
PRINTF("tiny_int before SQRT:%d\n", *((int8_t *)pInput->data + i));
*((int8_t *)colDataGetData(pInput->columnData, i)) = val_tinyint[i];
PRINTF("tiny_int before SQRT:%d\n", *((int8_t *)colDataGetData(pInput->columnData, i)));
}
code = sqrtFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after SQRT:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after SQRT:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
scltDestroyDataBlock(pOutput);
......@@ -2731,15 +2735,15 @@ TEST(ScalarFunctionTest, sqrtFunction_column) {
scltMakeDataBlock(&pInput, type, 0, rowNum, false);
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput->data + i) = val_float[i];
PRINTF("float before SQRT:%f\n", *((float *)pInput->data + i));
*((float *)colDataGetData(pInput->columnData, i)) = val_float[i];
PRINTF("float before SQRT:%f\n", *((float *)colDataGetData(pInput->columnData, i)));
}
code = sqrtFunction(pInput, 1, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after SQRT:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after SQRT:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(pInput);
......@@ -2760,7 +2764,7 @@ TEST(ScalarFunctionTest, logFunction_constant) {
int8_t val_tinyint[] = {27, 3};
type = TSDB_DATA_TYPE_TINYINT;
for (int32_t i = 0; i < 2; ++i) {
scltMakeDataBlock(&input[i], type, &val_tinyint[i], 1, true);
scltMakeDataBlock(&input[i], type, &val_tinyint[i], rowNum, true);
pInput[i] = *input[i];
}
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
......@@ -2770,8 +2774,8 @@ TEST(ScalarFunctionTest, logFunction_constant) {
code = logFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after LOG:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after LOG:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -2781,7 +2785,7 @@ TEST(ScalarFunctionTest, logFunction_constant) {
float val_float[] = {64.0, 4.0};
type = TSDB_DATA_TYPE_FLOAT;
for (int32_t i = 0; i < 2; ++i) {
scltMakeDataBlock(&input[i], type, &val_float[i], 1, true);
scltMakeDataBlock(&input[i], type, &val_float[i], rowNum, true);
pInput[i] = *input[i];
}
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
......@@ -2791,8 +2795,8 @@ TEST(ScalarFunctionTest, logFunction_constant) {
code = logFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after LOG:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after LOG:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -2801,9 +2805,9 @@ TEST(ScalarFunctionTest, logFunction_constant) {
//TINYINT AND FLOAT
int8_t param0 = 64;
float param1 = 4.0;
scltMakeDataBlock(&input[0], TSDB_DATA_TYPE_TINYINT, &param0, 1, true);
scltMakeDataBlock(&input[0], TSDB_DATA_TYPE_TINYINT, &param0, rowNum, true);
pInput[0] = *input[0];
scltMakeDataBlock(&input[1], TSDB_DATA_TYPE_FLOAT, &param1, 1, true);
scltMakeDataBlock(&input[1], TSDB_DATA_TYPE_FLOAT, &param1, rowNum, true);
pInput[1] = *input[1];
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
......@@ -2812,8 +2816,8 @@ TEST(ScalarFunctionTest, logFunction_constant) {
code = logFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int,float after LOG:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int,float after LOG:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
......@@ -2839,7 +2843,8 @@ TEST(ScalarFunctionTest, logFunction_column) {
scltMakeDataBlock(&input[i], type, 0, rowNum, false);
pInput[i] = *input[i];
for (int32_t j = 0; j < rowNum; ++j) {
*((int8_t *)pInput[i].data + j) = val_tinyint[i][j];
colDataAppend(pInput[i].columnData, j, (const char*) &val_tinyint[i][j], false);
}
PRINTF("tiny_int before LOG:%d,%d,%d\n", *((int8_t *)pInput[i].data + 0),
*((int8_t *)pInput[i].data + 1),
......@@ -2850,8 +2855,8 @@ TEST(ScalarFunctionTest, logFunction_column) {
code = logFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after LOG:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after LOG:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -2864,19 +2869,19 @@ TEST(ScalarFunctionTest, logFunction_column) {
scltMakeDataBlock(&input[i], type, 0, rowNum, false);
pInput[i] = *input[i];
for (int32_t j = 0; j < rowNum; ++j) {
*((float *)pInput[i].data + j) = val_float[i][j];
colDataAppend(pInput[i].columnData, j, (const char*) &val_float[i][j], false);
}
PRINTF("float before LOG:%f,%f,%f\n", *((float *)pInput[i].data + 0),
*((float *)pInput[i].data + 1),
*((float *)pInput[i].data + 2));
PRINTF("float before LOG:%f,%f,%f\n", *((float *)colDataGetData(pInput[i], 0)),
*((float *)colDataGetData(pInput[i], 1)),
*((float *)colDataGetData(pInput[i], 2)));
}
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
code = logFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after LOG:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after LOG:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -2888,12 +2893,14 @@ TEST(ScalarFunctionTest, logFunction_column) {
scltMakeDataBlock(&input[0], TSDB_DATA_TYPE_TINYINT, 0, rowNum, false);
pInput[0] = *input[0];
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput[0].data + i) = param0[i];
colDataAppend(pInput[0].columnData, i, (const char*) &param0[i], false);
}
scltMakeDataBlock(&input[1], TSDB_DATA_TYPE_FLOAT, 0, rowNum, false);
pInput[1] = *input[1];
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput[1].data + i) = param1[i];
colDataAppend(pInput[1].columnData, i, (const char*) &param1[i], false);
}
PRINTF("tiny_int, float before LOG:{%d,%f}, {%d,%f}, {%d,%f}\n", *((int8_t *)pInput[0].data + 0), *((float *)pInput[1].data + 0),
*((int8_t *)pInput[0].data + 1), *((float *)pInput[1].data + 1),
......@@ -2903,8 +2910,8 @@ TEST(ScalarFunctionTest, logFunction_column) {
code = logFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int,float after LOG:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int,float after LOG:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
......@@ -2927,7 +2934,7 @@ TEST(ScalarFunctionTest, powFunction_constant) {
int8_t val_tinyint[] = {2, 4};
type = TSDB_DATA_TYPE_TINYINT;
for (int32_t i = 0; i < 2; ++i) {
scltMakeDataBlock(&input[i], type, &val_tinyint[i], 1, true);
scltMakeDataBlock(&input[i], type, &val_tinyint[i], rowNum, true);
pInput[i] = *input[i];
}
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
......@@ -2937,8 +2944,8 @@ TEST(ScalarFunctionTest, powFunction_constant) {
code = powFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int after POW:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int after POW:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -2948,7 +2955,7 @@ TEST(ScalarFunctionTest, powFunction_constant) {
float val_float[] = {2.0, 4.0};
type = TSDB_DATA_TYPE_FLOAT;
for (int32_t i = 0; i < 2; ++i) {
scltMakeDataBlock(&input[i], type, &val_float[i], 1, true);
scltMakeDataBlock(&input[i], type, &val_float[i], rowNum, true);
pInput[i] = *input[i];
}
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
......@@ -2958,8 +2965,8 @@ TEST(ScalarFunctionTest, powFunction_constant) {
code = powFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("float after POW:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("float after POW:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -2968,9 +2975,9 @@ TEST(ScalarFunctionTest, powFunction_constant) {
//TINYINT AND FLOAT
int8_t param0 = 2;
float param1 = 4.0;
scltMakeDataBlock(&input[0], TSDB_DATA_TYPE_TINYINT, &param0, 1, true);
scltMakeDataBlock(&input[0], TSDB_DATA_TYPE_TINYINT, &param0, rowNum, true);
pInput[0] = *input[0];
scltMakeDataBlock(&input[1], TSDB_DATA_TYPE_FLOAT, &param1, 1, true);
scltMakeDataBlock(&input[1], TSDB_DATA_TYPE_FLOAT, &param1, rowNum, true);
pInput[1] = *input[1];
scltMakeDataBlock(&pOutput, otype, 0, rowNum, false);
......@@ -2979,8 +2986,8 @@ TEST(ScalarFunctionTest, powFunction_constant) {
code = powFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result);
PRINTF("tiny_int,float after POW:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result);
PRINTF("tiny_int,float after POW:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
......@@ -3006,7 +3013,8 @@ TEST(ScalarFunctionTest, powFunction_column) {
scltMakeDataBlock(&input[i], type, 0, rowNum, false);
pInput[i] = *input[i];
for (int32_t j = 0; j < rowNum; ++j) {
*((int8_t *)pInput[i].data + j) = val_tinyint[i][j];
colDataAppend(pInput[i].columnData, i, (const char*) &val_tinyint[i][j], false);
}
PRINTF("tiny_int before POW:%d,%d,%d\n", *((int8_t *)pInput[i].data + 0),
*((int8_t *)pInput[i].data + 1),
......@@ -3017,8 +3025,8 @@ TEST(ScalarFunctionTest, powFunction_column) {
code = powFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int after POW:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int after POW:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
......@@ -3032,7 +3040,7 @@ TEST(ScalarFunctionTest, powFunction_column) {
scltMakeDataBlock(&input[i], type, 0, rowNum, false);
pInput[i] = *input[i];
for (int32_t j = 0; j < rowNum; ++j) {
*((float *)pInput[i].data + j) = val_float[i][j];
colDataAppend(pInput[i].columnData, j, (const char*) &val_float[i][j], false);
}
PRINTF("float before POW:%f,%f,%f\n", *((float *)pInput[i].data + 0),
*((float *)pInput[i].data + 1),
......@@ -3043,8 +3051,8 @@ TEST(ScalarFunctionTest, powFunction_column) {
code = powFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("float after POW:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("float after POW:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
scltDestroyDataBlock(input[1]);
......@@ -3056,12 +3064,13 @@ TEST(ScalarFunctionTest, powFunction_column) {
scltMakeDataBlock(&input[0], TSDB_DATA_TYPE_TINYINT, 0, rowNum, false);
pInput[0] = *input[0];
for (int32_t i = 0; i < rowNum; ++i) {
*((int8_t *)pInput[0].data + i) = param0[i];
colDataAppend(pInput[0].columnData, i, (const char*) &param0[i], false);
}
scltMakeDataBlock(&input[1], TSDB_DATA_TYPE_FLOAT, 0, rowNum, false);
pInput[1] = *input[1];
for (int32_t i = 0; i < rowNum; ++i) {
*((float *)pInput[1].data + i) = param1[i];
colDataAppend(pInput[1].columnData, i, (const char*) &param1[i], false);
}
PRINTF("tiny_int, float before POW:{%d,%f}, {%d,%f}, {%d,%f}\n", *((int8_t *)pInput[0].data + 0), *((float *)pInput[1].data + 0),
*((int8_t *)pInput[0].data + 1), *((float *)pInput[1].data + 1),
......@@ -3071,8 +3080,8 @@ TEST(ScalarFunctionTest, powFunction_column) {
code = powFunction(pInput, 2, pOutput);
ASSERT_EQ(code, TSDB_CODE_SUCCESS);
for (int32_t i = 0; i < rowNum; ++i) {
ASSERT_EQ(*((double *)pOutput->data + i), result[i]);
PRINTF("tiny_int,float after POW:%f\n", *((double *)pOutput->data + i));
ASSERT_EQ(*((double *)colDataGetData(pOutput->columnData, i)), result[i]);
PRINTF("tiny_int,float after POW:%f\n", *((double *)colDataGetData(pOutput->columnData, i)));
}
scltDestroyDataBlock(input[0]);
......
source/libs/transport/test/transportTests.cpp
浏览文件 @ 4bd42a2d
......@@ -156,14 +156,14 @@ TEST_F(TransCtxEnv, mergeTest) {
STransCtx *src = (STransCtx *)taosMemoryCalloc(1, sizeof(STransCtx));
transCtxInit(src);
{
STransCtxVal val1 = {.val = NULL, .freeFunc = taosMemoryFree};
STransCtxVal val1 = {.val = NULL, .clone = NULL, .freeFunc = taosMemoryFree};
val1.val = taosMemoryMalloc(12);
taosHashPut(src->args, &key, sizeof(key), &val1, sizeof(val1));
key++;
}
{
STransCtxVal val1 = {.val = NULL, .freeFunc = taosMemoryFree};
STransCtxVal val1 = {.val = NULL, .clone = NULL, .freeFunc = taosMemoryFree};
val1.val = taosMemoryMalloc(12);
taosHashPut(src->args, &key, sizeof(key), &val1, sizeof(val1));
key++;
......@@ -176,14 +176,14 @@ TEST_F(TransCtxEnv, mergeTest) {
STransCtx *src = (STransCtx *)taosMemoryCalloc(1, sizeof(STransCtx));
transCtxInit(src);
{
STransCtxVal val1 = {.val = NULL, .freeFunc = taosMemoryFree};
STransCtxVal val1 = {.val = NULL, .clone = NULL, .freeFunc = taosMemoryFree};
val1.val = taosMemoryMalloc(12);
taosHashPut(src->args, &key, sizeof(key), &val1, sizeof(val1));
key++;
}
{
STransCtxVal val1 = {.val = NULL, .freeFunc = taosMemoryFree};
STransCtxVal val1 = {.val = NULL, .clone = NULL, .freeFunc = taosMemoryFree};
val1.val = taosMemoryMalloc(12);
taosHashPut(src->args, &key, sizeof(key), &val1, sizeof(val1));
key++;
......@@ -198,7 +198,7 @@ TEST_F(TransCtxEnv, mergeTest) {
STransCtx *src = (STransCtx *)taosMemoryCalloc(1, sizeof(STransCtx));
transCtxInit(src);
{
STransCtxVal val1 = {.val = NULL, .freeFunc = taosMemoryFree};
STransCtxVal val1 = {.val = NULL, .clone = NULL, .freeFunc = taosMemoryFree};
val1.val = taosMemoryCalloc(1, 11);
memcpy(val1.val, val.c_str(), val.size());
......@@ -206,7 +206,7 @@ TEST_F(TransCtxEnv, mergeTest) {
key++;
}
{
STransCtxVal val1 = {.val = NULL, .freeFunc = taosMemoryFree};
STransCtxVal val1 = {.val = NULL, .clone = NULL, .freeFunc = taosMemoryFree};
val1.val = taosMemoryCalloc(1, 11);
memcpy(val1.val, val.c_str(), val.size());
taosHashPut(src->args, &key, sizeof(key), &val1, sizeof(val1));
......
source/os/src/osMemory.c
浏览文件 @ 4bd42a2d
......@@ -21,11 +21,10 @@
#define TD_MEMORY_STACK_TRACE_DEPTH 10
typedef struct TdMemoryInfo
{
typedef struct TdMemoryInfo {
int32_t symbol;
int32_t memorySize;
void *stackTrace[TD_MEMORY_STACK_TRACE_DEPTH]; // gdb: disassemble /m 0xXXX
int32_t memorySize;
} *TdMemoryInfoPtr , TdMemoryInfo;
#if defined(_TD_WINDOWS_64) || defined(_TD_WINDOWS_32)
......
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