From 9b6460e1750df2f3634c3c2bc64ca13c50eee2a6 Mon Sep 17 00:00:00 2001 From: root Date: Thu, 17 Jun 2021 02:59:37 +0000 Subject: [PATCH] [TD-4608] add test case for stmt error --- tests/script/api/stmtBatchTest.c | 649 +++++++++++++++++++++++++++++++ 1 file changed, 649 insertions(+) diff --git a/tests/script/api/stmtBatchTest.c b/tests/script/api/stmtBatchTest.c index 24291adfa0..c488f2fa89 100644 --- a/tests/script/api/stmtBatchTest.c +++ b/tests/script/api/stmtBatchTest.c @@ -4406,6 +4406,654 @@ static void SpecifyColumnBatchCase_autoCreateTbl(TAOS *taos) { } +/*=======================*/ +/* +char * taos_stmt_errstr(TAOS_STMT *stmt) 用于在其他stmt API 返回错误(返回错误码或空指针)时获取错误信息,返回的错误信息可能是以下3种的一个: +1. 当stmt或sqlobj为空时的terrno对于的错误消息; +2. (可有的)详细错误消息; +3. 返回的错误码对于的错误消息; +*/ +static int stmt_specifyCol_bind_error_case_001(TAOS_STMT *stmt, int tableNum, int rowsOfPerColum, int bingNum, int lenOfBinaryDef, int lenOfBinaryAct, int columnNum) { + sampleValue* v = (sampleValue *)calloc(1, sizeof(sampleValue)); + + int totalRowsPerTbl = rowsOfPerColum * bingNum; + + v->ts = (int64_t *)malloc(sizeof(int64_t) * (size_t)(totalRowsPerTbl * tableNum)); + v->br = (char *)malloc(sizeof(int64_t) * (size_t)(totalRowsPerTbl * lenOfBinaryDef)); + v->nr = (char *)malloc(sizeof(int64_t) * (size_t)(totalRowsPerTbl * lenOfBinaryDef)); + + int *lb = (int *)malloc(MAX_ROWS_OF_PER_COLUMN * sizeof(int)); + + TAOS_MULTI_BIND *params = calloc(1, sizeof(TAOS_MULTI_BIND) * (size_t)(bingNum * columnNum * (tableNum+1) * rowsOfPerColum)); + char* is_null = malloc(sizeof(char) * MAX_ROWS_OF_PER_COLUMN); + char* no_null = malloc(sizeof(char) * MAX_ROWS_OF_PER_COLUMN); + + int64_t tts = 1591060628000; + + for (int i = 0; i < rowsOfPerColum; ++i) { + lb[i] = lenOfBinaryAct; + no_null[i] = 0; + is_null[i] = (i % 10 == 2) ? 1 : 0; + v->b[i] = (int8_t)(i % 2); + v->v1[i] = (int8_t)((i+1) % 2); + v->v2[i] = (int16_t)i; + v->v4[i] = (int32_t)(i+1); + v->v8[i] = (int64_t)(i+2); + v->f4[i] = (float)(i+3); + v->f8[i] = (double)(i+4); + char tbuf[MAX_BINARY_DEF_LEN]; + memset(tbuf, 0, MAX_BINARY_DEF_LEN); + sprintf(tbuf, "binary-%d-0123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789", i%10); + memcpy(v->br + i*lenOfBinaryDef, tbuf, (size_t)lenOfBinaryAct); + memset(tbuf, 0, MAX_BINARY_DEF_LEN); + sprintf(tbuf, "nchar-%d-0123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789", i%10); + memcpy(v->nr + i*lenOfBinaryDef, tbuf, (size_t)lenOfBinaryAct); + v->ts2[i] = tts + i; + } + + int i = 0; + for (int j = 0; j < bingNum * tableNum; j++) { + params[i+0].buffer_type = TSDB_DATA_TYPE_TIMESTAMP; + params[i+0].buffer_length = sizeof(int64_t); + params[i+0].buffer = &v->ts[j*rowsOfPerColum]; + params[i+0].length = NULL; + params[i+0].is_null = no_null; + params[i+0].num = rowsOfPerColum; + + params[i+1].buffer_type = TSDB_DATA_TYPE_BOOL; + params[i+1].buffer_length = sizeof(int8_t); + params[i+1].buffer = v->b; + params[i+1].length = NULL; + params[i+1].is_null = is_null; + params[i+1].num = rowsOfPerColum; + + params[i+2].buffer_type = TSDB_DATA_TYPE_INT; + params[i+2].buffer_length = sizeof(int32_t); + params[i+2].buffer = v->v4; + params[i+2].length = NULL; + params[i+2].is_null = is_null; + params[i+2].num = rowsOfPerColum; + + params[i+3].buffer_type = TSDB_DATA_TYPE_FLOAT; + params[i+3].buffer_length = sizeof(float); + params[i+3].buffer = v->f4; + params[i+3].length = NULL; + params[i+3].is_null = is_null; + params[i+3].num = rowsOfPerColum; + + params[i+4].buffer_type = TSDB_DATA_TYPE_BINARY; + params[i+4].buffer_length = (uintptr_t)lenOfBinaryDef; + params[i+4].buffer = v->br; + params[i+4].length = lb; + params[i+4].is_null = is_null; + params[i+4].num = rowsOfPerColum; + + i+=columnNum; + } + + //int64_t tts = 1591060628000; + for (int i = 0; i < totalRowsPerTbl * tableNum; ++i) { + v->ts[i] = tts + i; + } + + unsigned long long starttime = getCurrentTime(); + +// create table m%d (ts timestamp, b bool, v1 tinyint, v2 smallint, v4 int, v8 bigint, f4 float, f8 double, br binary(%d), nr nchar(%d), ts2 timestamp) + char *sql = "insert into m0 (ts,b,v4,f4,br) values(?,?,?,?,?)"; + + int code; + //TAOS_STMT *stmtNull = NULL; + //int code = taos_stmt_prepare(stmtNull, sql, 0); + //if (code != 0){ + // printf("failed to execute taos_stmt_prepare. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmtNull)); + // return -1; + //} + + //char* sqlNull = NULL; + //code = taos_stmt_prepare(stmt, sqlNull, 0); + //if (code != 0){ + // printf("failed to execute taos_stmt_prepare. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmt)); + //} + + code = taos_stmt_prepare(stmt, sql, 0); + if (code != 0){ + printf("failed to execute taos_stmt_prepare. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmt)); + return -1; + } + + int id = 0; + for (int l = 0; l < bingNum; l++) { + for (int zz = 0; zz < tableNum; zz++) { + //char buf[32]; + //sprintf(buf, "m%d", zz); + //code = taos_stmt_set_tbname(stmt, buf); + //if (code != 0){ + // printf("failed to execute taos_stmt_set_tbname. code:0x%x[%s]\n", code, tstrerror(code)); + // return -1; + //} + + //for (int col=0; col < columnNum + 1000; ++col) { + for (int col=0; col < columnNum; ++col) { + if (col >= columnNum) col = 0; + //code = taos_stmt_bind_single_param_batch(NULL, params + id, col); + //code = taos_stmt_bind_single_param_batch(stmt, NULL, col); + //code = taos_stmt_bind_single_param_batch(stmt, params + id, columnNum); + code = taos_stmt_bind_single_param_batch(stmt, params + id, col); + if (code != 0){ + printf("failed to execute taos_stmt_bind_single_param_batch. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmt)); + return -1; + } + id++; + } + + //code = taos_stmt_add_batch(NULL); + code = taos_stmt_add_batch(stmt); + if (code != 0) { + printf("failed to execute taos_stmt_add_batch. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmt)); + return -1; + } + + //code = taos_stmt_add_batch(stmt); + //if (code != 0) { + // printf("failed to execute taos_stmt_add_batch second. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmt)); + // return -1; + //} + } + + code = taos_stmt_execute(stmt); + if (code != 0) { + printf("failed to execute taos_stmt_execute. code:0x%x[%s]\n", code, tstrerror(code)); + return -1; + } + } + + unsigned long long endtime = getCurrentTime(); + unsigned long long totalRows = (uint32_t)(totalRowsPerTbl * tableNum); + printf("insert total %d records, used %u seconds, avg:%u useconds per record\n", totalRows, (endtime-starttime)/1000000UL, (endtime-starttime)/totalRows); + + free(v->ts); + free(v->br); + free(v->nr); + free(v); + free(lb); + free(params); + free(is_null); + free(no_null); + + return 0; +} + +static int stmt_specifyCol_bind_error_case_002(TAOS_STMT *stmt, int tableNum, int rowsOfPerColum, int bingNum, int lenOfBinaryDef, int lenOfBinaryAct, int columnNum) { + sampleValue* v = (sampleValue *)calloc(1, sizeof(sampleValue)); + + int totalRowsPerTbl = rowsOfPerColum * bingNum; + + v->ts = (int64_t *)malloc(sizeof(int64_t) * (size_t)(totalRowsPerTbl * tableNum)); + v->br = (char *)malloc(sizeof(int64_t) * (size_t)(totalRowsPerTbl * lenOfBinaryDef)); + v->nr = (char *)malloc(sizeof(int64_t) * (size_t)(totalRowsPerTbl * lenOfBinaryDef)); + + int *lb = (int *)malloc(MAX_ROWS_OF_PER_COLUMN * sizeof(int)); + + TAOS_MULTI_BIND *params = calloc(1, sizeof(TAOS_MULTI_BIND) * (size_t)(bingNum * columnNum * (tableNum+1) * rowsOfPerColum)); + char* is_null = malloc(sizeof(char) * MAX_ROWS_OF_PER_COLUMN); + char* no_null = malloc(sizeof(char) * MAX_ROWS_OF_PER_COLUMN); + + int64_t tts = 1591060628000; + + for (int i = 0; i < rowsOfPerColum; ++i) { + lb[i] = lenOfBinaryAct; + no_null[i] = 0; + is_null[i] = (i % 10 == 2) ? 1 : 0; + v->b[i] = (int8_t)(i % 2); + v->v1[i] = (int8_t)((i+1) % 2); + v->v2[i] = (int16_t)i; + v->v4[i] = (int32_t)(i+1); + v->v8[i] = (int64_t)(i+2); + v->f4[i] = (float)(i+3); + v->f8[i] = (double)(i+4); + char tbuf[MAX_BINARY_DEF_LEN]; + memset(tbuf, 0, MAX_BINARY_DEF_LEN); + sprintf(tbuf, "binary-%d", i%10); + memcpy(v->br + i*lenOfBinaryDef, tbuf, (size_t)lenOfBinaryAct); + memset(tbuf, 0, MAX_BINARY_DEF_LEN); + sprintf(tbuf, "nchar-%d", i%10); + memcpy(v->nr + i*lenOfBinaryDef, tbuf, (size_t)lenOfBinaryAct); + v->ts2[i] = tts + i; + } + + int i = 0; + for (int j = 0; j < bingNum * tableNum; j++) { + params[i+0].buffer_type = TSDB_DATA_TYPE_TIMESTAMP; + params[i+0].buffer_length = sizeof(int64_t); + params[i+0].buffer = &v->ts[j*rowsOfPerColum]; + params[i+0].length = NULL; + params[i+0].is_null = no_null; + params[i+0].num = rowsOfPerColum; + + params[i+1].buffer_type = TSDB_DATA_TYPE_BOOL; + params[i+1].buffer_length = sizeof(int8_t); + params[i+1].buffer = v->b; + params[i+1].length = NULL; + params[i+1].is_null = is_null; + params[i+1].num = rowsOfPerColum; + + params[i+2].buffer_type = TSDB_DATA_TYPE_INT; + params[i+2].buffer_length = sizeof(int32_t); + params[i+2].buffer = v->v4; + params[i+2].length = NULL; + params[i+2].is_null = is_null; + params[i+2].num = rowsOfPerColum; + + params[i+3].buffer_type = TSDB_DATA_TYPE_FLOAT; + params[i+3].buffer_length = sizeof(float); + params[i+3].buffer = v->f4; + params[i+3].length = NULL; + params[i+3].is_null = is_null; + params[i+3].num = rowsOfPerColum; + + params[i+4].buffer_type = TSDB_DATA_TYPE_BINARY; + params[i+4].buffer_length = (uintptr_t)lenOfBinaryDef; + params[i+4].buffer = v->br; + params[i+4].length = lb; + params[i+4].is_null = is_null; + params[i+4].num = rowsOfPerColum; + + i+=columnNum; + } + + //int64_t tts = 1591060628000; + for (int i = 0; i < totalRowsPerTbl * tableNum; ++i) { + v->ts[i] = tts + i; + } + + unsigned long long starttime = getCurrentTime(); + +// create table m%d (ts timestamp, b bool, v1 tinyint, v2 smallint, v4 int, v8 bigint, f4 float, f8 double, br binary(%d), nr nchar(%d), ts2 timestamp) + char *sql = "insert into ? (ts,b,v4,f4,br) values(?,?,?,?,?)"; + int code = taos_stmt_prepare(stmt, sql, 0); + if (code != 0){ + printf("failed to execute taos_stmt_prepare. code:0x%x[%s]\n", code, tstrerror(code)); + return -1; + } + + int id = 0; + for (int l = 0; l < bingNum; l++) { + for (int zz = 0; zz < tableNum; zz++) { + char buf[32]; + sprintf(buf, "m%d", zz); + + //stmt=NULL; + code = taos_stmt_set_tbname(stmt, buf); + if (code != 0){ + printf("failed to execute taos_stmt_set_tbname. code:0x%x[%s][%s]\n", code, tstrerror(code), taos_stmt_errstr(stmt)); + return -1; + } + + for (int col=0; col < columnNum; ++col) { + code = taos_stmt_bind_single_param_batch(stmt, params + id, col); + if (code != 0){ + printf("failed to execute taos_stmt_bind_single_param_batch. code:0x%x[%s]\n", code, tstrerror(code)); + return -1; + } + id++; + } + + code = taos_stmt_add_batch(stmt); + if (code != 0) { + printf("failed to execute taos_stmt_add_batch. code:0x%x[%s]\n", code, tstrerror(code)); + return -1; + } + } + + code = taos_stmt_execute(stmt); + if (code != 0) { + printf("failed to execute taos_stmt_execute. code:0x%x[%s]\n", code, tstrerror(code)); + return -1; + } + } + + unsigned long long endtime = getCurrentTime(); + unsigned long long totalRows = (uint32_t)(totalRowsPerTbl * tableNum); + printf("insert total %d records, used %u seconds, avg:%u useconds per record\n", totalRows, (endtime-starttime)/1000000UL, (endtime-starttime)/totalRows); + + free(v->ts); + free(v->br); + free(v->nr); + free(v); + free(lb); + free(params); + free(is_null); + free(no_null); + + return 0; +} + +static void SpecifyColumnBatchErrorCase(TAOS *taos) { + TAOS_STMT *stmt = NULL; + + int tableNum; + int lenOfBinaryDef; + int rowsOfPerColum; + int bingNum; + int lenOfBinaryAct; + int columnNum; + + int totalRowsPerTbl; + +//=======================================================================// +//=============================== single table ==========================// +//========== case 1: ======================// +#if 0 +{ + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 1; + bingNum = 1; + lenOfBinaryDef = 40; + lenOfBinaryAct = 8; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db1"); + stmt_specifyCol_bind_error_case_001(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 1 check result end\n\n"); +} +#endif + + //========== case 2: ======================// +#if 1 +{ + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 5; + bingNum = 1; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 15; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db2"); + stmt_specifyCol_bind_error_case_002(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + //checkResult(taos, "m1", 0, totalRowsPerTbl); + //checkResult(taos, "m2", 0, totalRowsPerTbl); + //checkResult(taos, "m3", 0, totalRowsPerTbl); + //checkResult(taos, "m4", 0, totalRowsPerTbl); + //checkResult(taos, "m5", 0, totalRowsPerTbl); + //checkResult(taos, "m6", 0, totalRowsPerTbl); + //checkResult(taos, "m7", 0, totalRowsPerTbl); + //checkResult(taos, "m8", 0, totalRowsPerTbl); + //checkResult(taos, "m9", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 2 check result end\n\n"); +} +#endif + + //========== case 2-1: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 32767; + bingNum = 1; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 15; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db2_1"); + stmt_specifyCol_bind_case_001(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + //checkResult(taos, "m1", 0, totalRowsPerTbl); + //checkResult(taos, "m2", 0, totalRowsPerTbl); + //checkResult(taos, "m3", 0, totalRowsPerTbl); + //checkResult(taos, "m4", 0, totalRowsPerTbl); + //checkResult(taos, "m5", 0, totalRowsPerTbl); + //checkResult(taos, "m6", 0, totalRowsPerTbl); + //checkResult(taos, "m7", 0, totalRowsPerTbl); + //checkResult(taos, "m8", 0, totalRowsPerTbl); + //checkResult(taos, "m9", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 2-1 check result end\n\n"); + } +#endif + //========== case 2-2: ======================// +#if 0 + { + printf("====case 2-2 error test start\n"); + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 32768; + bingNum = 1; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 15; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db2_2"); + stmt_specifyCol_bind_case_001(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + //checkResult(taos, "m1", 0, totalRowsPerTbl); + //checkResult(taos, "m2", 0, totalRowsPerTbl); + //checkResult(taos, "m3", 0, totalRowsPerTbl); + //checkResult(taos, "m4", 0, totalRowsPerTbl); + //checkResult(taos, "m5", 0, totalRowsPerTbl); + //checkResult(taos, "m6", 0, totalRowsPerTbl); + //checkResult(taos, "m7", 0, totalRowsPerTbl); + //checkResult(taos, "m8", 0, totalRowsPerTbl); + //checkResult(taos, "m9", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("====case 2-2 check result end\n\n"); + } +#endif + + + //========== case 3: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 1; + bingNum = 5; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 20; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db3"); + stmt_specifyCol_bind_case_001(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + //checkResult(taos, "m1", 0, totalRowsPerTbl); + //checkResult(taos, "m2", 0, totalRowsPerTbl); + //checkResult(taos, "m3", 0, totalRowsPerTbl); + //checkResult(taos, "m4", 0, totalRowsPerTbl); + //checkResult(taos, "m5", 0, totalRowsPerTbl); + //checkResult(taos, "m6", 0, totalRowsPerTbl); + //checkResult(taos, "m7", 0, totalRowsPerTbl); + //checkResult(taos, "m8", 0, totalRowsPerTbl); + //checkResult(taos, "m9", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 3 check result end\n\n"); + } +#endif + + //========== case 4: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 5; + bingNum = 5; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 33; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db4"); + stmt_specifyCol_bind_case_001(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + //checkResult(taos, "m1", 0, totalRowsPerTbl); + //checkResult(taos, "m2", 0, totalRowsPerTbl); + //checkResult(taos, "m3", 0, totalRowsPerTbl); + //checkResult(taos, "m4", 0, totalRowsPerTbl); + //checkResult(taos, "m5", 0, totalRowsPerTbl); + //checkResult(taos, "m6", 0, totalRowsPerTbl); + //checkResult(taos, "m7", 0, totalRowsPerTbl); + //checkResult(taos, "m8", 0, totalRowsPerTbl); + //checkResult(taos, "m9", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 4 check result end\n\n"); + } +#endif + +//=======================================================================// +//=============================== multi tables ==========================// + //========== case 5: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 5; + rowsOfPerColum = 1; + bingNum = 1; + lenOfBinaryDef = 40; + lenOfBinaryAct = 16; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db5"); + stmt_specifyCol_bind_case_002(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + checkResult(taos, "m1", 0, totalRowsPerTbl); + checkResult(taos, "m2", 0, totalRowsPerTbl); + checkResult(taos, "m3", 0, totalRowsPerTbl); + checkResult(taos, "m4", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 5 check result end\n\n"); + } +#endif + + //========== case 6: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 5; + rowsOfPerColum = 5; + bingNum = 1; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 20; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db6"); + stmt_specifyCol_bind_case_002(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + checkResult(taos, "m1", 0, totalRowsPerTbl); + checkResult(taos, "m2", 0, totalRowsPerTbl); + checkResult(taos, "m3", 0, totalRowsPerTbl); + checkResult(taos, "m4", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 6 check result end\n\n"); + } +#endif + + //========== case 7: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 5; + rowsOfPerColum = 1; + bingNum = 5; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 33; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db7"); + stmt_specifyCol_bind_case_002(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + checkResult(taos, "m1", 0, totalRowsPerTbl); + checkResult(taos, "m2", 0, totalRowsPerTbl); + checkResult(taos, "m3", 0, totalRowsPerTbl); + checkResult(taos, "m4", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 7 check result end\n\n"); + } +#endif + + //========== case 8: ======================// +#if 0 +{ + stmt = taos_stmt_init(taos); + + tableNum = 5; + rowsOfPerColum = 5; + bingNum = 5; + lenOfBinaryDef = 1000; + lenOfBinaryAct = 40; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db8"); + stmt_specifyCol_bind_case_002(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + checkResult(taos, "m1", 0, totalRowsPerTbl); + checkResult(taos, "m2", 0, totalRowsPerTbl); + checkResult(taos, "m3", 0, totalRowsPerTbl); + checkResult(taos, "m4", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 8 check result end\n\n"); +} +#endif + + //=======================================================================// + //=============================== multi-rows to single table ==========================// + //========== case 9: ======================// +#if 0 + { + stmt = taos_stmt_init(taos); + + tableNum = 1; + rowsOfPerColum = 23740; + bingNum = 1; + lenOfBinaryDef = 40; + lenOfBinaryAct = 8; + columnNum = 5; + + prepareVcolumn(taos, 1, tableNum, lenOfBinaryDef, "db9"); + stmt_specifyCol_bind_case_001(stmt, tableNum, rowsOfPerColum, bingNum, lenOfBinaryDef, lenOfBinaryAct, columnNum); + + totalRowsPerTbl = rowsOfPerColum * bingNum; + checkResult(taos, "m0", 0, totalRowsPerTbl); + taos_stmt_close(stmt); + printf("case 9 check result end\n\n"); + } +#endif + + return ; + +} + int main(int argc, char *argv[]) { TAOS *taos; @@ -4472,6 +5120,7 @@ int main(int argc, char *argv[]) //runCase_long(taos); //SpecifyColumnBatchCase(taos); SpecifyColumnBatchCase_autoCreateTbl(taos); + //SpecifyColumnBatchErrorCase(taos); return 0; }