#include "function.h" #include "scalar.h" #include "tdatablock.h" #include "sclInt.h" #include "sclvector.h" typedef float (*_float_fn)(float); typedef double (*_double_fn)(double); typedef double (*_double_fn_2)(double, double); typedef int (*_conv_fn)(int); typedef void (*_trim_fn)(char *, char*, int32_t, int32_t); typedef int16_t (*_len_fn)(char *, int32_t); /** Math functions **/ double tlog(double v, double base) { return log(v) / log(base); } int32_t absFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; int32_t type = GET_PARAM_TYPE(pInput); if (!IS_NUMERIC_TYPE(type)) { return TSDB_CODE_FAILED; } 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; } 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]; } 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]; } 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]; } 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]; } 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: { colDataAssign(pOutputData, pInputData, pInput->numOfRows); } } pOutput->numOfRows = pInput->numOfRows; return TSDB_CODE_SUCCESS; } 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; } SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; _getDoubleValue_fn_t getValueFn = getVectorDoubleValueFn(type); 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] = valFn(getValueFn(pInputData->pData, i)); } pOutput->numOfRows = pInput->numOfRows; return TSDB_CODE_SUCCESS; } int32_t doScalarFunctionUnique2(SScalarParam *pInput, int32_t inputNum, SScalarParam* pOutput, _double_fn_2 valFn) { if (inputNum != 2 || !IS_NUMERIC_TYPE(GET_PARAM_TYPE(&pInput[0])) || !IS_NUMERIC_TYPE(GET_PARAM_TYPE(&pInput[1]))) { return TSDB_CODE_FAILED; } SColumnInfoData *pInputData[2]; SColumnInfoData *pOutputData = pOutput->columnData; _getDoubleValue_fn_t getValueFn[2]; for (int32_t i = 0; i < inputNum; ++i) { pInputData[i] = pInput[i].columnData; getValueFn[i]= getVectorDoubleValueFn(GET_PARAM_TYPE(&pInput[i])); } double *out = (double *)pOutputData->pData; for (int32_t i = 0; i < pInput->numOfRows; ++i) { if (colDataIsNull_f(pInputData[0]->nullbitmap, i) || colDataIsNull_f(pInputData[1]->nullbitmap, 0)) { colDataSetNull_f(pOutputData->nullbitmap, i); continue; } out[i] = valFn(getValueFn[0](pInputData[0]->pData, i), getValueFn[1](pInputData[1]->pData, 0)); } pOutput->numOfRows = pInput->numOfRows; return TSDB_CODE_SUCCESS; } 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; } SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; 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; } 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; } default: { colDataAssign(pOutputData, pInputData, pInput->numOfRows); } } pOutput->numOfRows = pInput->numOfRows; return TSDB_CODE_SUCCESS; } /** String functions **/ int16_t tlength(char *input, int32_t type) { return varDataLen(input); } int16_t tcharlength(char *input, int32_t type) { if (type == TSDB_DATA_TYPE_VARCHAR) { return varDataLen(input); } else { //NCHAR return varDataLen(input) / TSDB_NCHAR_SIZE; } } void tltrim(char *input, char *output, int32_t type, int32_t charLen) { int32_t numOfSpaces = 0; if (type == TSDB_DATA_TYPE_VARCHAR) { for (int32_t i = 0; i < charLen; ++i) { if (!isspace(*(varDataVal(input) + i))) { break; } numOfSpaces++; } } else { //NCHAR for (int32_t i = 0; i < charLen; ++i) { if (!iswspace(*((uint32_t *)varDataVal(input) + i))) { break; } numOfSpaces++; } } int32_t resLen; if (type == TSDB_DATA_TYPE_VARCHAR) { resLen = charLen - numOfSpaces; memcpy(varDataVal(output), varDataVal(input) + numOfSpaces, resLen); } else { resLen = (charLen - numOfSpaces) * TSDB_NCHAR_SIZE; memcpy(varDataVal(output), varDataVal(input) + numOfSpaces * TSDB_NCHAR_SIZE, resLen); } varDataSetLen(output, resLen); } void trtrim(char *input, char *output, int32_t type, int32_t charLen) { int32_t numOfSpaces = 0; if (type == TSDB_DATA_TYPE_VARCHAR) { for (int32_t i = charLen - 1; i >= 0; --i) { if (!isspace(*(varDataVal(input) + i))) { break; } numOfSpaces++; } } else { //NCHAR for (int32_t i = charLen - 1; i < charLen; ++i) { if (!iswspace(*((uint32_t *)varDataVal(input) + i))) { break; } numOfSpaces++; } } int32_t resLen; if (type == TSDB_DATA_TYPE_VARCHAR) { resLen = charLen - numOfSpaces; } else { resLen = (charLen - numOfSpaces) * TSDB_NCHAR_SIZE; } memcpy(varDataVal(output), varDataVal(input), resLen); varDataSetLen(output, resLen); } int32_t doLengthFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput, _len_fn lenFn) { int32_t type = GET_PARAM_TYPE(pInput); if (inputNum != 1 || !IS_VAR_DATA_TYPE(type)) { return TSDB_CODE_FAILED; } SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; char *in = 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] = lenFn(in, type); in += varDataTLen(in); } pOutput->numOfRows = pInput->numOfRows; return TSDB_CODE_SUCCESS; } static void setVarTypeOutputBuf(SColumnInfoData *pOutputData, int32_t len, int32_t type) { pOutputData->pData = taosMemoryCalloc(len, sizeof(char)); pOutputData->info.type = type; pOutputData->info.bytes = len; pOutputData->varmeta.length = len; pOutputData->varmeta.allocLen = len; } int32_t concatFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { if (inputNum < 2 || inputNum > 8) { // concat accpet 2-8 input strings return TSDB_CODE_FAILED; } SColumnInfoData **pInputData = taosMemoryCalloc(inputNum, sizeof(SColumnInfoData *)); SColumnInfoData *pOutputData = pOutput->columnData; char **input = taosMemoryCalloc(inputNum, POINTER_BYTES); char *outputBuf = NULL; int32_t inputLen = 0; int32_t numOfRows = 0; for (int32_t i = 0; i < inputNum; ++i) { if (!IS_VAR_DATA_TYPE(GET_PARAM_TYPE(&pInput[i])) || GET_PARAM_TYPE(&pInput[i]) != GET_PARAM_TYPE(&pInput[0])) { return TSDB_CODE_FAILED; } if (pInput[i].numOfRows > numOfRows) { numOfRows = pInput[i].numOfRows; } } for (int32_t i = 0; i < inputNum; ++i) { pInputData[i] = pInput[i].columnData; input[i] = pInputData[i]->pData; if (pInput[i].numOfRows == 1) { inputLen += (pInputData[i]->varmeta.length - VARSTR_HEADER_SIZE) * numOfRows; } else { inputLen += pInputData[i]->varmeta.length - numOfRows * VARSTR_HEADER_SIZE; } } int32_t outputLen = inputLen + numOfRows * VARSTR_HEADER_SIZE; outputBuf = taosMemoryCalloc(outputLen, 1); char *output = outputBuf; bool hasNull = false; for (int32_t k = 0; k < numOfRows; ++k) { for (int32_t i = 0; i < inputNum; ++i) { if (colDataIsNull_s(pInputData[i], k)) { colDataAppendNULL(pOutputData, k); hasNull = true; break; } } if (hasNull) { continue; } int16_t dataLen = 0; for (int32_t i = 0; i < inputNum; ++i) { memcpy(varDataVal(output) + dataLen, varDataVal(input[i]), varDataLen(input[i])); dataLen += varDataLen(input[i]); if (pInput[i].numOfRows != 1) { input[i] += varDataTLen(input[i]); } } varDataSetLen(output, dataLen); colDataAppend(pOutputData, k, output, false); output += varDataTLen(output); } pOutput->numOfRows = numOfRows; taosMemoryFree(input); taosMemoryFree(outputBuf); taosMemoryFree(pInputData); return TSDB_CODE_SUCCESS; } int32_t concatWsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { if (inputNum < 3 || inputNum > 9) { // concat accpet 3-9 input strings including the separator return TSDB_CODE_FAILED; } SColumnInfoData **pInputData = taosMemoryCalloc(inputNum, sizeof(SColumnInfoData *)); SColumnInfoData *pOutputData = pOutput->columnData; char **input = taosMemoryCalloc(inputNum, POINTER_BYTES); char *outputBuf = NULL; int32_t inputLen = 0; int32_t numOfRows = 0; for (int32_t i = 1; i < inputNum; ++i) { if (!IS_VAR_DATA_TYPE(GET_PARAM_TYPE(&pInput[i])) || GET_PARAM_TYPE(&pInput[i]) != GET_PARAM_TYPE(&pInput[1])) { return TSDB_CODE_FAILED; } if (pInput[i].numOfRows > numOfRows) { numOfRows = pInput[i].numOfRows; } } for (int32_t i = 0; i < inputNum; ++i) { pInputData[i] = pInput[i].columnData; if (i == 0) { // calculate required separator space int32_t factor = (GET_PARAM_TYPE(&pInput[1]) == TSDB_DATA_TYPE_NCHAR) ? TSDB_NCHAR_SIZE : 1; inputLen += (pInputData[0]->varmeta.length - VARSTR_HEADER_SIZE) * numOfRows * (inputNum - 2) * factor; } else if (pInput[i].numOfRows == 1) { inputLen += (pInputData[i]->varmeta.length - VARSTR_HEADER_SIZE) * numOfRows; } else { inputLen += pInputData[i]->varmeta.length - numOfRows * VARSTR_HEADER_SIZE; } input[i] = pInputData[i]->pData; } int32_t outputLen = inputLen + numOfRows * VARSTR_HEADER_SIZE; outputBuf = taosMemoryCalloc(outputLen, 1); char *output = outputBuf; for (int32_t k = 0; k < numOfRows; ++k) { if (colDataIsNull_s(pInputData[0], k)) { colDataAppendNULL(pOutputData, k); continue; } int16_t dataLen = 0; for (int32_t i = 1; i < inputNum; ++i) { if (colDataIsNull_s(pInputData[i], k)) { continue; } memcpy(varDataVal(output) + dataLen, varDataVal(input[i]), varDataLen(input[i])); dataLen += varDataLen(input[i]); if (pInput[i].numOfRows != 1) { input[i] += varDataTLen(input[i]); } if (i < inputNum - 1) { //insert the separator char *sep = pInputData[0]->pData; memcpy(varDataVal(output) + dataLen, varDataVal(sep), varDataLen(sep)); dataLen += varDataLen(sep); } } varDataSetLen(output, dataLen); colDataAppend(pOutputData, k, output, false); output += varDataTLen(output); } pOutput->numOfRows = numOfRows; taosMemoryFree(input); taosMemoryFree(outputBuf); taosMemoryFree(pInputData); return TSDB_CODE_SUCCESS; } int32_t doCaseConvFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput, _conv_fn convFn) { int32_t type = GET_PARAM_TYPE(pInput); if (inputNum != 1 || !IS_VAR_DATA_TYPE(type)) { return TSDB_CODE_FAILED; } SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; char *input = pInputData->pData; char *output = NULL; int32_t outputLen = pInputData->varmeta.length; char *outputBuf = taosMemoryCalloc(outputLen, 1); output = outputBuf; for (int32_t i = 0; i < pInput->numOfRows; ++i) { if (colDataIsNull_s(pInputData, i)) { colDataAppendNULL(pOutputData, i); continue; } int32_t len = varDataLen(input); if (type == TSDB_DATA_TYPE_VARCHAR) { for (int32_t j = 0; j < len; ++j) { *(varDataVal(output) + j) = convFn(*(varDataVal(input) + j)); } } else { //NCHAR for (int32_t j = 0; j < len / TSDB_NCHAR_SIZE; ++j) { *((uint32_t *)varDataVal(output) + j) = convFn(*((uint32_t *)varDataVal(input) + j)); } } varDataSetLen(output, len); colDataAppend(pOutputData, i, output, false); input += varDataTLen(input); output += varDataTLen(output); } pOutput->numOfRows = pInput->numOfRows; taosMemoryFree(outputBuf); return TSDB_CODE_SUCCESS; } int32_t doTrimFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput, _trim_fn trimFn) { int32_t type = GET_PARAM_TYPE(pInput); if (inputNum != 1 || !IS_VAR_DATA_TYPE(type)) { return TSDB_CODE_FAILED; } SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; char *input = pInputData->pData; char *output = NULL; int32_t outputLen = pInputData->varmeta.length; char *outputBuf = taosMemoryCalloc(outputLen, 1); output = outputBuf; for (int32_t i = 0; i < pInput->numOfRows; ++i) { if (colDataIsNull_s(pInputData, i)) { colDataAppendNULL(pOutputData, i); continue; } int32_t len = varDataLen(input); int32_t charLen = (type == TSDB_DATA_TYPE_VARCHAR) ? len : len / TSDB_NCHAR_SIZE; trimFn(input, output, type, charLen); varDataSetLen(output, len); colDataAppend(pOutputData, i, output, false); input += varDataTLen(input); output += varDataTLen(output); } pOutput->numOfRows = pInput->numOfRows; taosMemoryFree(outputBuf); return TSDB_CODE_SUCCESS; } int32_t substrFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { if (inputNum != 2 && inputNum!= 3) { return TSDB_CODE_FAILED; } int32_t subPos = 0; GET_TYPED_DATA(subPos, int32_t, GET_PARAM_TYPE(&pInput[1]), pInput[1].columnData->pData); if (subPos == 0) { //subPos needs to be positive or negative values; return TSDB_CODE_FAILED; } int32_t subLen = INT16_MAX; if (inputNum == 3) { GET_TYPED_DATA(subLen, int32_t, GET_PARAM_TYPE(&pInput[2]), pInput[2].columnData->pData); if (subLen < 0) { //subLen cannot be negative return TSDB_CODE_FAILED; } subLen = (GET_PARAM_TYPE(pInput) == TSDB_DATA_TYPE_VARCHAR) ? subLen : subLen * TSDB_NCHAR_SIZE; } SColumnInfoData *pInputData = pInput->columnData; SColumnInfoData *pOutputData = pOutput->columnData; char *input = pInputData->pData; char *output = NULL; int32_t outputLen = pInputData->varmeta.length; char *outputBuf = taosMemoryCalloc(outputLen, 1); output = outputBuf; for (int32_t i = 0; i < pInput->numOfRows; ++i) { if (colDataIsNull_s(pInputData, i)) { colDataAppendNULL(pOutputData, i); continue; } int32_t len = varDataLen(input); int32_t startPosBytes; if (subPos > 0) { startPosBytes = (GET_PARAM_TYPE(pInput) == TSDB_DATA_TYPE_VARCHAR) ? subPos - 1 : (subPos - 1) * TSDB_NCHAR_SIZE; startPosBytes = MIN(startPosBytes, len); } else { startPosBytes = (GET_PARAM_TYPE(pInput) == TSDB_DATA_TYPE_VARCHAR) ? len + subPos : len + subPos * TSDB_NCHAR_SIZE; startPosBytes = MAX(startPosBytes, 0); } subLen = MIN(subLen, len - startPosBytes); if (subLen > 0) { memcpy(varDataVal(output), varDataVal(input) + startPosBytes, subLen); } varDataSetLen(output, subLen); colDataAppend(pOutputData, i , output, false); input += varDataTLen(input); output += varDataTLen(output); } pOutput->numOfRows = pInput->numOfRows; taosMemoryFree(outputBuf); return TSDB_CODE_SUCCESS; } int32_t atanFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunctionUnique(pInput, inputNum, pOutput, atan); } int32_t sinFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunctionUnique(pInput, inputNum, pOutput, sin); } 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) { return doScalarFunctionUnique(pInput, inputNum, pOutput, tan); } int32_t asinFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunctionUnique(pInput, inputNum, pOutput, asin); } int32_t acosFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunctionUnique(pInput, inputNum, pOutput, acos); } int32_t powFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunctionUnique2(pInput, inputNum, pOutput, pow); } int32_t logFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunctionUnique2(pInput, inputNum, pOutput, tlog); } 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) { return doScalarFunction(pInput, inputNum, pOutput, ceilf, ceil); } int32_t floorFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunction(pInput, inputNum, pOutput, floorf, floor); } int32_t roundFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doScalarFunction(pInput, inputNum, pOutput, roundf, round); } int32_t lowerFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doCaseConvFunction(pInput, inputNum, pOutput, tolower); } int32_t upperFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doCaseConvFunction(pInput, inputNum, pOutput, toupper); } int32_t ltrimFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doTrimFunction(pInput, inputNum, pOutput, tltrim); } int32_t rtrimFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doTrimFunction(pInput, inputNum, pOutput, trtrim); } int32_t lengthFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doLengthFunction(pInput, inputNum, pOutput, tlength); } int32_t charLengthFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { return doLengthFunction(pInput, inputNum, pOutput, tcharlength); } #if 0 static void reverseCopy(char* dest, const char* src, int16_t type, int32_t numOfRows) { switch(type) { case TSDB_DATA_TYPE_TINYINT: case TSDB_DATA_TYPE_UTINYINT:{ int8_t* p = (int8_t*) dest; int8_t* pSrc = (int8_t*) src; for(int32_t i = 0; i < numOfRows; ++i) { p[i] = pSrc[numOfRows - i - 1]; } return; } case TSDB_DATA_TYPE_SMALLINT: case TSDB_DATA_TYPE_USMALLINT:{ int16_t* p = (int16_t*) dest; int16_t* pSrc = (int16_t*) src; for(int32_t i = 0; i < numOfRows; ++i) { p[i] = pSrc[numOfRows - i - 1]; } return; } case TSDB_DATA_TYPE_INT: case TSDB_DATA_TYPE_UINT: { int32_t* p = (int32_t*) dest; int32_t* pSrc = (int32_t*) src; for(int32_t i = 0; i < numOfRows; ++i) { p[i] = pSrc[numOfRows - i - 1]; } return; } case TSDB_DATA_TYPE_BIGINT: case TSDB_DATA_TYPE_UBIGINT: { int64_t* p = (int64_t*) dest; int64_t* pSrc = (int64_t*) src; for(int32_t i = 0; i < numOfRows; ++i) { p[i] = pSrc[numOfRows - i - 1]; } return; } case TSDB_DATA_TYPE_FLOAT: { float* p = (float*) dest; float* pSrc = (float*) src; for(int32_t i = 0; i < numOfRows; ++i) { p[i] = pSrc[numOfRows - i - 1]; } return; } case TSDB_DATA_TYPE_DOUBLE: { double* p = (double*) dest; double* pSrc = (double*) src; for(int32_t i = 0; i < numOfRows; ++i) { p[i] = pSrc[numOfRows - i - 1]; } return; } default: assert(0); } } #endif bool getTimePseudoFuncEnv(SFunctionNode* UNUSED_PARAM(pFunc), SFuncExecEnv* pEnv) { pEnv->calcMemSize = sizeof(int64_t); return true; } int32_t qStartTsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { ASSERT(inputNum == 1); colDataAppendInt64(pOutput->columnData, pOutput->numOfRows, (int64_t *)colDataGetData(pInput->columnData, 0)); } int32_t qEndTsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { ASSERT(inputNum == 1); colDataAppendInt64(pOutput->columnData, pOutput->numOfRows, (int64_t *)colDataGetData(pInput->columnData, 1)); } int32_t winDurFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { ASSERT(inputNum == 1); colDataAppendInt64(pOutput->columnData, pOutput->numOfRows, (int64_t *)colDataGetData(pInput->columnData, 2)); } int32_t winStartTsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { ASSERT(inputNum == 1); colDataAppendInt64(pOutput->columnData, pOutput->numOfRows, (int64_t*) colDataGetData(pInput->columnData, 3)); return TSDB_CODE_SUCCESS; } int32_t winEndTsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput) { ASSERT(inputNum == 1); colDataAppendInt64(pOutput->columnData, pOutput->numOfRows, (int64_t*) colDataGetData(pInput->columnData, 4)); return TSDB_CODE_SUCCESS; }