提交 6a5836a6 编写于 作者: S Shuduo Sang

Merge branch 'develop' into feature/pytest-output-sql-command-to-file

......@@ -90,6 +90,7 @@ matrix:
esac
- os: linux
dist: bionic
language: c
compiler: gcc
env: COVERITY_SCAN=true
......@@ -125,6 +126,7 @@ matrix:
branch_pattern: coverity_scan
- os: linux
dist: bionic
language: c
compiler: gcc
env: ENV_COVER=true
......@@ -230,6 +232,7 @@ matrix:
- make > /dev/null
- os: linux
dist: bionic
language: c
compiler: clang
env: DESC="linux/clang build"
......
......@@ -42,35 +42,35 @@ enum {
static int32_t tscAllocateMemIfNeed(STableDataBlocks *pDataBlock, int32_t rowSize, int32_t * numOfRows);
static int32_t tscToInteger(SSQLToken *pToken, int64_t *value, char **endPtr) {
int32_t numType = isValidNumber(pToken);
if (TK_ILLEGAL == numType) {
return numType;
}
// int32_t numType = isValidNumber(pToken);
// if (TK_ILLEGAL == numType) {
// return numType;
// }
int32_t radix = 10;
if (numType == TK_HEX) {
if (pToken->type == TK_HEX) {
radix = 16;
} else if (numType == TK_OCT) {
} else if (pToken->type == TK_OCT) {
radix = 8;
} else if (numType == TK_BIN) {
} else if (pToken->type == TK_BIN) {
radix = 2;
}
errno = 0;
*value = strtoll(pToken->z, endPtr, radix);
return numType;
return pToken->type;
}
static int32_t tscToDouble(SSQLToken *pToken, double *value, char **endPtr) {
int32_t numType = isValidNumber(pToken);
if (TK_ILLEGAL == numType) {
return numType;
}
// int32_t numType = isValidNumber(pToken);
// if (TK_ILLEGAL == numType) {
// return numType;
// }
errno = 0;
*value = strtod(pToken->z, endPtr);
return numType;
return pToken->type;
}
int tsParseTime(SSQLToken *pToken, int64_t *time, char **next, char *error, int16_t timePrec) {
......
......@@ -23,8 +23,6 @@
void tscSaveSlowQueryFp(void *handle, void *tmrId);
void *tscSlowQueryConn = NULL;
bool tscSlowQueryConnInitialized = false;
TAOS *taos_connect_a(char *ip, char *user, char *pass, char *db, uint16_t port, void (*fp)(void *, TAOS_RES *, int),
void *param, void **taos);
void tscInitConnCb(void *param, TAOS_RES *result, int code) {
char *sql = param;
......
......@@ -97,7 +97,9 @@ typedef struct {
STSCursor cur;
} SQueryStatusInfo;
#define CLEAR_QUERY_STATUS(q, st) ((q)->status &= (~(st)))
static void setQueryStatus(SQuery *pQuery, int8_t status);
static bool isIntervalQuery(SQuery *pQuery) { return pQuery->intervalTime > 0; }
// todo move to utility
......@@ -278,6 +280,26 @@ int64_t getNumOfResult(SQueryRuntimeEnv *pRuntimeEnv) {
return maxOutput;
}
/*
* the value of number of result needs to be update due to offset value upated.
*/
void updateNumOfResult(SQueryRuntimeEnv *pRuntimeEnv, int32_t numOfRes) {
SQuery *pQuery = pRuntimeEnv->pQuery;
for (int32_t j = 0; j < pQuery->numOfOutput; ++j) {
SResultInfo *pResInfo = GET_RES_INFO(&pRuntimeEnv->pCtx[j]);
int16_t functionId = pRuntimeEnv->pCtx[j].functionId;
if (functionId == TSDB_FUNC_TS || functionId == TSDB_FUNC_TAG || functionId == TSDB_FUNC_TAGPRJ ||
functionId == TSDB_FUNC_TS_DUMMY) {
continue;
}
assert(pResInfo->numOfRes > numOfRes);
pResInfo->numOfRes = numOfRes;
}
}
static int32_t getGroupResultId(int32_t groupIndex) {
int32_t base = 200000;
return base + (groupIndex * 10000);
......@@ -354,9 +376,7 @@ bool isSelectivityWithTagsQuery(SQuery *pQuery) {
bool isTSCompQuery(SQuery *pQuery) { return pQuery->pSelectExpr[0].base.functionId == TSDB_FUNC_TS_COMP; }
static bool limitResults(SQInfo *pQInfo) {
SQuery *pQuery = pQInfo->runtimeEnv.pQuery;
static bool limitResults(SQuery *pQuery) {
if ((pQuery->limit.limit > 0) && (pQuery->rec.total + pQuery->rec.rows > pQuery->limit.limit)) {
pQuery->rec.rows = pQuery->limit.limit - pQuery->rec.total;
assert(pQuery->rec.rows > 0);
......@@ -626,6 +646,7 @@ static void doCheckQueryCompleted(SQueryRuntimeEnv *pRuntimeEnv, TSKEY lastKey,
int32_t i = 0;
int64_t skey = TSKEY_INITIAL_VAL;
// TODO opt performance: get the closed time window here
for (i = 0; i < pWindowResInfo->size; ++i) {
SWindowResult *pResult = &pWindowResInfo->pResult[i];
if (pResult->status.closed) {
......@@ -1303,6 +1324,10 @@ static int32_t tableApplyFunctionsOnBlock(SQueryRuntimeEnv *pRuntimeEnv, SDataBl
if (numOfRes >= pQuery->rec.threshold) {
setQueryStatus(pQuery, QUERY_RESBUF_FULL);
}
if ((pQuery->limit.limit >= 0) && numOfRes >= (pQuery->limit.limit + pQuery->limit.offset)) {
setQueryStatus(pQuery, QUERY_COMPLETED);
}
}
return numOfRes;
......@@ -2408,6 +2433,7 @@ static int64_t doScanAllDataBlocks(SQueryRuntimeEnv *pRuntimeEnv) {
char *tmp = realloc(pQuery->sdata[i], bytes * newSize + sizeof(tFilePage));
if (tmp == NULL) { // todo handle the oom
assert(0);
} else {
pQuery->sdata[i] = (tFilePage *)tmp;
}
......@@ -2421,7 +2447,7 @@ static int64_t doScanAllDataBlocks(SQueryRuntimeEnv *pRuntimeEnv) {
}
}
qTrace("QInfo: %p realloc output buffer, new size: %d rows, old:%d, remain:%d", GET_QINFO_ADDR(pRuntimeEnv),
qTrace("QInfo:%p realloc output buffer, new size: %d rows, old:%d, remain:%d", GET_QINFO_ADDR(pRuntimeEnv),
newSize, pRec->capacity, newSize - pRec->rows);
pRec->capacity = newSize;
......@@ -2434,11 +2460,11 @@ static int64_t doScanAllDataBlocks(SQueryRuntimeEnv *pRuntimeEnv) {
pQuery->pos = QUERY_IS_ASC_QUERY(pQuery) ? 0 : blockInfo.rows - 1;
int32_t numOfRes = tableApplyFunctionsOnBlock(pRuntimeEnv, &blockInfo, pStatis, binarySearchForKey, pDataBlock);
qTrace("QInfo:%p check data block, brange:%" PRId64 "-%" PRId64 ", rows:%d, res:%d", GET_QINFO_ADDR(pRuntimeEnv),
qTrace("QInfo:%p check data block, brange:%" PRId64 "-%" PRId64 ", rows:%d, numOfRes:%d", GET_QINFO_ADDR(pRuntimeEnv),
blockInfo.window.skey, blockInfo.window.ekey, blockInfo.rows, numOfRes);
// save last access position
if (Q_STATUS_EQUAL(pQuery->status, QUERY_RESBUF_FULL)) {
// while the output buffer is full or limit/offset is applied, query may be paused here
if (Q_STATUS_EQUAL(pQuery->status, QUERY_RESBUF_FULL | QUERY_COMPLETED)) {
break;
}
}
......@@ -3173,30 +3199,38 @@ void skipResults(SQueryRuntimeEnv *pRuntimeEnv) {
}
if (pQuery->rec.rows <= pQuery->limit.offset) {
qTrace("QInfo:%p skip rows:%d, new offset:%" PRIu64, GET_QINFO_ADDR(pRuntimeEnv), pQuery->rec.rows,
pQuery->limit.offset - pQuery->rec.rows);
pQuery->limit.offset -= pQuery->rec.rows;
pQuery->rec.rows = 0;
resetCtxOutputBuf(pRuntimeEnv);
// clear the buffer is full flag if exists
pQuery->status &= (~QUERY_RESBUF_FULL);
// clear the buffer full flag if exists
CLEAR_QUERY_STATUS(pQuery, QUERY_RESBUF_FULL);
} else {
int32_t numOfSkip = (int32_t) pQuery->limit.offset;
int64_t numOfSkip = pQuery->limit.offset;
pQuery->rec.rows -= numOfSkip;
pQuery->limit.offset = 0;
qTrace("QInfo:%p skip row:%"PRId64", new offset:%d, numOfRows remain:%" PRIu64, GET_QINFO_ADDR(pRuntimeEnv), numOfSkip,
0, pQuery->rec.rows);
for (int32_t i = 0; i < pQuery->numOfOutput; ++i) {
int32_t functionId = pQuery->pSelectExpr[i].base.functionId;
int32_t bytes = pRuntimeEnv->pCtx[i].outputBytes;
memmove(pQuery->sdata[i]->data, pQuery->sdata[i]->data + bytes * numOfSkip, pQuery->rec.rows * bytes);
pRuntimeEnv->pCtx[i].aOutputBuf += bytes * numOfSkip;
memmove(pQuery->sdata[i]->data, (char*) pQuery->sdata[i]->data + bytes * numOfSkip, pQuery->rec.rows * bytes);
pRuntimeEnv->pCtx[i].aOutputBuf = ((char*) pQuery->sdata[i]->data) + pQuery->rec.rows * bytes;
if (functionId == TSDB_FUNC_DIFF || functionId == TSDB_FUNC_TOP || functionId == TSDB_FUNC_BOTTOM) {
pRuntimeEnv->pCtx[i].ptsOutputBuf += TSDB_KEYSIZE * numOfSkip;
pRuntimeEnv->pCtx[i].ptsOutputBuf = pRuntimeEnv->pCtx[0].aOutputBuf;
}
}
pQuery->limit.offset = 0;
updateNumOfResult(pRuntimeEnv, pQuery->rec.rows);
}
}
......@@ -3205,7 +3239,7 @@ void setQueryStatus(SQuery *pQuery, int8_t status) {
pQuery->status = status;
} else {
// QUERY_NOT_COMPLETED is not compatible with any other status, so clear its position first
pQuery->status &= (~QUERY_NOT_COMPLETED);
CLEAR_QUERY_STATUS(pQuery, QUERY_NOT_COMPLETED);
pQuery->status |= status;
}
}
......@@ -3957,7 +3991,7 @@ static void updateOffsetVal(SQueryRuntimeEnv *pRuntimeEnv, SDataBlockInfo *pBloc
int32_t numOfRes = tableApplyFunctionsOnBlock(pRuntimeEnv, pBlockInfo, NULL, binarySearchForKey, pDataBlock);
qTrace("QInfo:%p check data block, brange:%" PRId64 "-%" PRId64 ", rows:%d, res:%d", GET_QINFO_ADDR(pRuntimeEnv),
qTrace("QInfo:%p check data block, brange:%" PRId64 "-%" PRId64 ", rows:%d, numOfRes:%d", GET_QINFO_ADDR(pRuntimeEnv),
pBlockInfo->window.skey, pBlockInfo->window.ekey, pBlockInfo->rows, numOfRes);
}
......@@ -4075,7 +4109,7 @@ static bool skipTimeInterval(SQueryRuntimeEnv *pRuntimeEnv, TSKEY* start) {
int32_t numOfRes = tableApplyFunctionsOnBlock(pRuntimeEnv, &blockInfo, NULL, binarySearchForKey, pDataBlock);
pRuntimeEnv->windowResInfo.curIndex = index; // restore the window index
qTrace("QInfo:%p check data block, brange:%" PRId64 "-%" PRId64 ", rows:%d, res:%d",
qTrace("QInfo:%p check data block, brange:%" PRId64 "-%" PRId64 ", rows:%d, numOfRes:%d",
GET_QINFO_ADDR(pRuntimeEnv), blockInfo.window.skey, blockInfo.window.ekey, blockInfo.rows, numOfRes);
return true;
} else { // do nothing
......@@ -4532,8 +4566,6 @@ static void sequentialTableProcess(SQInfo *pQInfo) {
continue;
}
// SPointInterpoSupporter pointInterpSupporter = {0};
// TODO handle the limit offset problem
if (pQuery->numOfFilterCols == 0 && pQuery->limit.offset > 0) {
// skipBlocks(pRuntimeEnv);
......@@ -4544,12 +4576,10 @@ static void sequentialTableProcess(SQInfo *pQInfo) {
}
scanAllDataBlocks(pRuntimeEnv, pQuery->current->lastKey);
pQuery->rec.rows = getNumOfResult(pRuntimeEnv);
skipResults(pRuntimeEnv);
// the limitation of output result is reached, set the query completed
if (limitResults(pQInfo)) {
if (limitResults(pQuery)) {
pQInfo->tableIndex = pQInfo->groupInfo.numOfTables;
break;
}
......@@ -4578,18 +4608,15 @@ static void sequentialTableProcess(SQInfo *pQInfo) {
break;
}
} else { // forward query range
pQuery->window.skey = pQuery->current->lastKey;
} else {
// all data in the result buffer are skipped due to the offset, continue to retrieve data from current meter
if (pQuery->rec.rows == 0) {
assert(!Q_STATUS_EQUAL(pQuery->status, QUERY_RESBUF_FULL));
continue;
} else {
// pQInfo->pTableQuerySupporter->pMeterSidExtInfo[k]->key = pQuery->lastKey;
// // buffer is full, wait for the next round to retrieve data from current meter
// assert(Q_STATUS_EQUAL(pQuery->over, QUERY_RESBUF_FULL));
// break;
// buffer is full, wait for the next round to retrieve data from current meter
assert(Q_STATUS_EQUAL(pQuery->status, QUERY_RESBUF_FULL));
break;
}
}
}
......@@ -4633,10 +4660,8 @@ static void sequentialTableProcess(SQInfo *pQInfo) {
copyFromWindowResToSData(pQInfo, pWindowResInfo->pResult);
}
pQuery->rec.total += pQuery->rec.rows;
qTrace(
"QInfo %p, numOfTables:%d, index:%d, numOfGroups:%d, %d points returned, total:%"PRId64", offset:%" PRId64,
"QInfo %p numOfTables:%d, index:%d, numOfGroups:%d, %d points returned, total:%"PRId64", offset:%" PRId64,
pQInfo, pQInfo->groupInfo.numOfTables, pQInfo->tableIndex, numOfGroups, pQuery->rec.rows, pQuery->rec.total,
pQuery->limit.offset);
}
......@@ -4809,7 +4834,7 @@ static void tableFixedOutputProcess(SQInfo *pQInfo, STableQueryInfo* pTableInfo)
pQuery->rec.rows = getNumOfResult(pRuntimeEnv);
skipResults(pRuntimeEnv);
limitResults(pQInfo);
limitResults(pQuery);
}
static void tableMultiOutputProcess(SQInfo *pQInfo, STableQueryInfo* pTableInfo) {
......@@ -4857,7 +4882,7 @@ static void tableMultiOutputProcess(SQInfo *pQInfo, STableQueryInfo* pTableInfo)
resetCtxOutputBuf(pRuntimeEnv);
}
limitResults(pQInfo);
limitResults(pQuery);
if (Q_STATUS_EQUAL(pQuery->status, QUERY_RESBUF_FULL)) {
qTrace("QInfo:%p query paused due to output limitation, next qrange:%" PRId64 "-%" PRId64, pQInfo,
pQuery->current->lastKey, pQuery->window.ekey);
......@@ -4935,7 +4960,7 @@ static void tableIntervalProcess(SQInfo *pQInfo, STableQueryInfo* pTableInfo) {
// the offset is handled at prepare stage if no interpolation involved
if (pQuery->fillType == TSDB_FILL_NONE || pQuery->rec.rows == 0) {
limitResults(pQInfo);
limitResults(pQuery);
break;
} else {
TSKEY ekey = taosGetRevisedEndKey(pQuery->window.ekey, pQuery->order.order, pQuery->slidingTime,
......@@ -4947,7 +4972,7 @@ static void tableIntervalProcess(SQInfo *pQInfo, STableQueryInfo* pTableInfo) {
qTrace("QInfo: %p fill results completed, final:%d", pQInfo, pQuery->rec.rows);
if (pQuery->rec.rows > 0 || Q_STATUS_EQUAL(pQuery->status, QUERY_COMPLETED)) {
limitResults(pQInfo);
limitResults(pQuery);
break;
}
......@@ -4982,7 +5007,7 @@ static void tableQueryImpl(SQInfo *pQInfo) {
qTrace("QInfo: %p fill results completed, final:%d", pQInfo, pQuery->rec.rows);
if (pQuery->rec.rows > 0) {
limitResults(pQInfo);
limitResults(pQuery);
}
qTrace("QInfo:%p current:%d returned, total:%d", pQInfo, pQuery->rec.rows, pQuery->rec.total);
......
......@@ -282,11 +282,7 @@ int tSQLKeywordCode(const char* z, int n) {
}
SKeyword** pKey = (SKeyword**)taosHashGet(KeywordHashTable, key, n);
if (pKey != NULL) {
return (*pKey)->type;
} else {
return TK_ID;
}
return (pKey != NULL)? (*pKey)->type:TK_ID;
}
/*
......@@ -594,31 +590,28 @@ SSQLToken tStrGetToken(char* str, int32_t* i, bool isPrevOptr, uint32_t numOfIgn
while (1) {
*i += t0.n;
bool hasComma = false;
while ((str[*i] == ' ' || str[*i] == '\n' || str[*i] == '\r' || str[*i] == '\t' || str[*i] == '\f')
|| str[*i] == ',') {
if (str[*i] == ',') {
if (false == hasComma) {
hasComma = true;
} else { // comma only allowed once
t0.n = 0;
return t0;
}
int32_t numOfComma = 0;
char t = str[*i];
while (t == ' ' || t == '\n' || t == '\r' || t == '\t' || t == '\f' || t == ',') {
if (t == ',' && (++numOfComma > 1)) { // comma only allowed once
t0.n = 0;
return t0;
}
(*i)++;
t = str[++(*i)];
}
t0.n = tSQLGetToken(&str[*i], &t0.type);
bool ignoreFlag = false;
bool ignore = false;
for (uint32_t k = 0; k < numOfIgnoreToken; k++) {
if (t0.type == ignoreTokenTypes[k]) {
ignoreFlag = true;
ignore = true;
break;
}
}
if (!ignoreFlag) {
if (!ignore) {
break;
}
}
......@@ -662,114 +655,4 @@ SSQLToken tStrGetToken(char* str, int32_t* i, bool isPrevOptr, uint32_t numOfIgn
return t0;
}
FORCE_INLINE bool isKeyWord(const char* z, int32_t len) { return (tSQLKeywordCode((char*)z, len) != TK_ID); }
FORCE_INLINE bool isNumber(const SSQLToken* pToken) {
return (pToken->type == TK_INTEGER || pToken->type == TK_FLOAT || pToken->type == TK_HEX || pToken->type == TK_BIN);
}
int32_t isValidNumber(const SSQLToken* pToken) {
const char* z = pToken->z;
int32_t type = TK_ILLEGAL;
int32_t i = 0;
for(; i < pToken->n; ++i) {
switch (z[i]) {
case '+':
case '-': {
break;
}
case '.': {
/*
* handle the the float number with out integer part
* .123
* .123e4
*/
if (!isdigit(z[i+1])) {
return TK_ILLEGAL;
}
for (i += 2; isdigit(z[i]); i++) {
}
if ((z[i] == 'e' || z[i] == 'E') &&
(isdigit(z[i + 1]) || ((z[i + 1] == '+' || z[i + 1] == '-') && isdigit(z[i + 2])))) {
i += 2;
while (isdigit(z[i])) {
i++;
}
}
type = TK_FLOAT;
goto _end;
}
case '0': {
char next = z[i + 1];
if (next == 'b') { // bin number
type = TK_BIN;
for (i += 2; (z[i] == '0' || z[i] == '1'); ++i) {
}
goto _end;
} else if (next == 'x') { //hex number
type = TK_HEX;
for (i += 2; isdigit(z[i]) || (z[i] >= 'a' && z[i] <= 'f') || (z[i] >= 'A' && z[i] <= 'F'); ++i) {
}
goto _end;
}
}
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9': {
type = TK_INTEGER;
for (; isdigit(z[i]); i++) {
}
int32_t seg = 0;
while (z[i] == '.' && isdigit(z[i + 1])) {
i += 2;
while (isdigit(z[i])) {
i++;
}
seg++;
type = TK_FLOAT;
}
if (seg > 1) {
return TK_ILLEGAL;
}
if ((z[i] == 'e' || z[i] == 'E') &&
(isdigit(z[i + 1]) || ((z[i + 1] == '+' || z[i + 1] == '-') && isdigit(z[i + 2])))) {
i += 2;
while (isdigit(z[i])) {
i++;
}
type = TK_FLOAT;
}
goto _end;
}
default:
return TK_ILLEGAL;
}
}
_end:
if (i < pToken->n) {
return TK_ILLEGAL;
} else {
return type;
}
}
\ No newline at end of file
bool isKeyWord(const char* z, int32_t len) { return (tSQLKeywordCode((char*)z, len) != TK_ID); }
\ No newline at end of file
......@@ -395,6 +395,7 @@ static int32_t getFileCompInfo(STsdbQueryHandle* pQueryHandle, int32_t* numOfBlo
SCompIdx* compIndex = &pQueryHandle->rhelper.pCompIdx[pCheckInfo->tableId.tid];
if (compIndex->len == 0 || compIndex->numOfBlocks == 0) { // no data block in this file, try next file
pCheckInfo->numOfBlocks = 0;
continue;//no data blocks in the file belongs to pCheckInfo->pTable
} else {
if (pCheckInfo->compSize < compIndex->len) {
......@@ -858,6 +859,7 @@ static void mergeDataInDataBlock(STsdbQueryHandle* pQueryHandle, STableCheckInfo
}
}
pos += (end - start + 1) * step;
cur->blockCompleted = (((pos >= endPos || cur->lastKey > pQueryHandle->window.ekey) && ASCENDING_ORDER_TRAVERSE(pQueryHandle->order)) ||
((pos <= endPos || cur->lastKey < pQueryHandle->window.ekey) && !ASCENDING_ORDER_TRAVERSE(pQueryHandle->order)));
......
......@@ -21,6 +21,8 @@ extern "C" {
#endif
#include "os.h"
#include "tutil.h"
#include "ttokendef.h"
#define TK_SPACE 200
#define TK_COMMENT 201
......@@ -31,7 +33,7 @@ extern "C" {
#define TK_FILE 206
#define TK_QUESTION 207 // denoting the placeholder of "?",when invoking statement bind query
#define TSQL_TBNAME "TBNAME"
#define TSQL_TBNAME "TBNAME"
#define TSQL_TBNAME_L "tbname"
// used to denote the minimum unite in sql parsing
......@@ -74,14 +76,117 @@ bool isKeyWord(const char *z, int32_t len);
* @param pToken
* @return
*/
bool isNumber(const SSQLToken *pToken);
#define isNumber(tk) \
((tk)->type == TK_INTEGER || (tk)->type == TK_FLOAT || (tk)->type == TK_HEX || (tk)->type == TK_BIN)
/**
* check if it is a token or not
* @param pToken
* @return token type, if it is not a number, TK_ILLEGAL will return
* @return token type, if it is not a number, TK_ILLEGAL will return
*/
int32_t isValidNumber(const SSQLToken* pToken);
static FORCE_INLINE int32_t isValidNumber(const SSQLToken* pToken) {
const char* z = pToken->z;
int32_t type = TK_ILLEGAL;
int32_t i = 0;
for(; i < pToken->n; ++i) {
switch (z[i]) {
case '+':
case '-': {
break;
}
case '.': {
/*
* handle the the float number with out integer part
* .123
* .123e4
*/
if (!isdigit(z[i+1])) {
return TK_ILLEGAL;
}
for (i += 2; isdigit(z[i]); i++) {
}
if ((z[i] == 'e' || z[i] == 'E') &&
(isdigit(z[i + 1]) || ((z[i + 1] == '+' || z[i + 1] == '-') && isdigit(z[i + 2])))) {
i += 2;
while (isdigit(z[i])) {
i++;
}
}
type = TK_FLOAT;
goto _end;
}
case '0': {
char next = z[i + 1];
if (next == 'b') { // bin number
type = TK_BIN;
for (i += 2; (z[i] == '0' || z[i] == '1'); ++i) {
}
goto _end;
} else if (next == 'x') { //hex number
type = TK_HEX;
for (i += 2; isdigit(z[i]) || (z[i] >= 'a' && z[i] <= 'f') || (z[i] >= 'A' && z[i] <= 'F'); ++i) {
}
goto _end;
}
}
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9': {
type = TK_INTEGER;
for (; isdigit(z[i]); i++) {
}
int32_t seg = 0;
while (z[i] == '.' && isdigit(z[i + 1])) {
i += 2;
while (isdigit(z[i])) {
i++;
}
seg++;
type = TK_FLOAT;
}
if (seg > 1) {
return TK_ILLEGAL;
}
if ((z[i] == 'e' || z[i] == 'E') &&
(isdigit(z[i + 1]) || ((z[i + 1] == '+' || z[i + 1] == '-') && isdigit(z[i + 2])))) {
i += 2;
while (isdigit(z[i])) {
i++;
}
type = TK_FLOAT;
}
goto _end;
}
default:
return TK_ILLEGAL;
}
}
_end:
return (i < pToken->n)? TK_ILLEGAL:type;
}
#ifdef __cplusplus
}
......
......@@ -102,7 +102,32 @@ static void doUpdateHashTable(SHashObj *pHashObj, SHashNode *pNode);
* @param hashVal hash value by hash function
* @return
*/
static SHashNode *doGetNodeFromHashTable(SHashObj *pHashObj, const void *key, uint32_t keyLen, uint32_t *hashVal);
FORCE_INLINE SHashNode *doGetNodeFromHashTable(SHashObj *pHashObj, const void *key, uint32_t keyLen, uint32_t *hashVal) {
uint32_t hash = (*pHashObj->hashFp)(key, keyLen);
int32_t slot = HASH_INDEX(hash, pHashObj->capacity);
SHashEntry *pEntry = pHashObj->hashList[slot];
SHashNode *pNode = pEntry->next;
while (pNode) {
if ((pNode->keyLen == keyLen) && (memcmp(pNode->key, key, keyLen) == 0)) {
break;
}
pNode = pNode->next;
}
if (pNode) {
assert(HASH_INDEX(pNode->hashVal, pHashObj->capacity) == slot);
}
// return the calculated hash value, to avoid calculating it again in other functions
if (hashVal != NULL) {
*hashVal = hash;
}
return pNode;
}
/**
* Resize the hash list if the threshold is reached
......@@ -438,33 +463,6 @@ void doUpdateHashTable(SHashObj *pHashObj, SHashNode *pNode) {
}
}
SHashNode *doGetNodeFromHashTable(SHashObj *pHashObj, const void *key, uint32_t keyLen, uint32_t *hashVal) {
uint32_t hash = (*pHashObj->hashFp)(key, keyLen);
int32_t slot = HASH_INDEX(hash, pHashObj->capacity);
SHashEntry *pEntry = pHashObj->hashList[slot];
SHashNode *pNode = pEntry->next;
while (pNode) {
if ((pNode->keyLen == keyLen) && (memcmp(pNode->key, key, keyLen) == 0)) {
break;
}
pNode = pNode->next;
}
if (pNode) {
assert(HASH_INDEX(pNode->hashVal, pHashObj->capacity) == slot);
}
// return the calculated hash value, to avoid calculating it again in other functions
if (hashVal != NULL) {
*hashVal = hash;
}
return pNode;
}
void taosHashTableResize(SHashObj *pHashObj) {
if (pHashObj->size < pHashObj->capacity * HASH_DEFAULT_LOAD_FACTOR) {
return;
......
......@@ -10,7 +10,7 @@
#include "hashfunc.h"
#include "tutil.h"
#define ROTL32(x, r) ((x) << (r) | (x) >> (32 - (r)))
#define ROTL32(x, r) ((x) << (r) | (x) >> (32u - (r)))
#define FMIX32(h) \
do { \
......@@ -20,12 +20,12 @@
(h) *= 0xc2b2ae35; \
(h) ^= (h) >> 16; \
} while (0)
static void MurmurHash3_32_s(const void *key, int len, uint32_t seed, void *out) {
uint32_t MurmurHash3_32(const char *key, uint32_t len) {
const uint8_t *data = (const uint8_t *)key;
const int nblocks = len / 4;
const int nblocks = len >> 2u;
uint32_t h1 = seed;
uint32_t h1 = 0x12345678;
const uint32_t c1 = 0xcc9e2d51;
const uint32_t c2 = 0x1b873593;
......@@ -36,11 +36,11 @@ static void MurmurHash3_32_s(const void *key, int len, uint32_t seed, void *out)
uint32_t k1 = blocks[i];
k1 *= c1;
k1 = ROTL32(k1, 15);
k1 = ROTL32(k1, 15u);
k1 *= c2;
h1 ^= k1;
h1 = ROTL32(h1, 13);
h1 = ROTL32(h1, 13u);
h1 = h1 * 5 + 0xe6546b64;
}
......@@ -48,7 +48,7 @@ static void MurmurHash3_32_s(const void *key, int len, uint32_t seed, void *out)
uint32_t k1 = 0;
switch (len & 3) {
switch (len & 3u) {
case 3:
k1 ^= tail[2] << 16;
case 2:
......@@ -56,7 +56,7 @@ static void MurmurHash3_32_s(const void *key, int len, uint32_t seed, void *out)
case 1:
k1 ^= tail[0];
k1 *= c1;
k1 = ROTL32(k1, 15);
k1 = ROTL32(k1, 15u);
k1 *= c2;
h1 ^= k1;
};
......@@ -65,16 +65,7 @@ static void MurmurHash3_32_s(const void *key, int len, uint32_t seed, void *out)
FMIX32(h1);
*(uint32_t *)out = h1;
}
uint32_t MurmurHash3_32(const char *key, uint32_t len) {
const int32_t hashSeed = 0x12345678;
uint32_t val = 0;
MurmurHash3_32_s(key, len, hashSeed, &val);
return val;
return h1;
}
uint32_t taosIntHash_32(const char *key, uint32_t UNUSED_PARAM(len)) { return *(uint32_t *)key; }
......
......@@ -65,7 +65,7 @@ sleep 2000
system sh/exec.sh -n dnode1 -s start
print ================== server restart completed
run general/parser/limit1_tb.sim
#run general/parser/limit1_tb.sim
run general/parser/limit1_stb.sim
system sh/exec.sh -n dnode1 -s stop -x SIGINT
\ No newline at end of file
......@@ -111,16 +111,16 @@ endi
if $data09 != nchar0 then
return -1
endi
if $data11 != NULL then
if $data11 != null then
return -1
endi
if $data12 != NULL then
if $data12 != null then
return -1
endi
if $data13 != NULL then
if $data13 != null then
return -1
endi
if $data14 != NULL then
if $data14 != null then
return -1
endi
......@@ -543,7 +543,7 @@ endi
if $data14 != 8.000000000 then
return -1
endi
if $data21 != NULL then
if $data21 != null then
return -1
endi
......@@ -613,7 +613,7 @@ endi
if $data21 != 7.000000000 then
return -1
endi
if $data31 != NULL then
if $data31 != null then
return -1
endi
sql select avg(c1), avg(c2), avg(c3), avg(c4), avg(c5), avg(c6) from $tb where ts >= $ts0 and ts <= $tsu interval(30m) limit 3 offset 1
......
......@@ -33,9 +33,9 @@ echo "### run Python script ###"
cd ../pytest
if [ "$1" == "cron" ]; then
./fulltest.sh > /dev/null | tee pytest-out.txt
./fulltest.sh 2>&1 | grep 'successfully executed\|failed\|fault' | grep -v 'default'| tee pytest-out.txt
else
./smoketest.sh > /dev/null | tee pytest-out.txt
./smoketest.sh 2>&1 | grep 'successfully executed\|failed\|fault' | grep -v 'default'| tee pytest-out.txt
fi
totalPySuccess=`grep 'successfully executed' pytest-out.txt | wc -l`
......
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