database/mariadb-columnstore-engine
1
0
Fork 0
mirror of https://github.com/mariadb-corporation/mariadb-columnstore-engine.git synced 2025-11-03 17:13:17 +03:00
Code Activity
Files
45460d27feecb0344b2c5f7388b19dcf04832eb6
mariadb-columnstore-engine/primitives/linux-port/pp-scan-unittest.cpp
Leonid Fedorov 04752ec546 clang format apply
2022-01-21 16:43:49 +00:00

5228 lines
139 KiB
C++
Raw Blame History

/* Copyright (C) 2014 InfiniDB, Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; version 2 of
the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA. */
/*********************************************************************
* $Id: tdriver.cpp 141 2006-11-09 18:00:25Z pleblanc $
*
********************************************************************/
/** @file
* class MyClass Interface
*/
#include <iostream>
#include <pthread.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/ipc.h>
#include <sys/sem.h>
#include <sys/shm.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdexcept>
#include <signal.h>
#include <values.h>
#include <cppunit/extensions/HelperMacros.h>
#include "primitiveprocessor.h"
using namespace primitives;
using namespace std;
int done;
void alarm_handler(int sig)
{
done = 1;
}
class PrimTest : public CppUnit::TestFixture
{
CPPUNIT_TEST_SUITE(PrimTest);
CPPUNIT_TEST(p_IdxWalk_1_eq_1);
CPPUNIT_TEST(p_IdxWalk_1_eq_2);
CPPUNIT_TEST(p_IdxWalk_1_lt_1);
CPPUNIT_TEST(p_IdxWalk_1_lte_1);
CPPUNIT_TEST(p_IdxWalk_1_gt_1);
CPPUNIT_TEST(p_IdxWalk_1_gte_1);
CPPUNIT_TEST(p_IdxWalk_1_neq_1);
CPPUNIT_TEST(p_IdxWalk_2_eq_or_1);
CPPUNIT_TEST(p_IdxWalk_2_range_1);
CPPUNIT_TEST(p_IdxWalk_2_range_2);
CPPUNIT_TEST(p_IdxWalk_2_range_3);
CPPUNIT_TEST(p_IdxWalk_40_eq_or_1);
CPPUNIT_TEST(p_IdxWalk_40_neq_and_1);
CPPUNIT_TEST(p_AggregateSignature_1);
CPPUNIT_TEST(p_AggregateSignature_2);
CPPUNIT_TEST(p_TokenByScan_1);
CPPUNIT_TEST(p_TokenByScan_2);
CPPUNIT_TEST(p_TokenByScan_3);
CPPUNIT_TEST(p_TokenByScan_gt_1);
CPPUNIT_TEST(p_TokenByScan_gte_1);
CPPUNIT_TEST(p_TokenByScan_lt_1);
CPPUNIT_TEST(p_TokenByScan_lte_1);
CPPUNIT_TEST(p_TokenByScan_neq_1);
CPPUNIT_TEST(p_TokenByScan_range_1);
CPPUNIT_TEST(p_TokenByScan_eq_6);
CPPUNIT_TEST(p_TokenByScan_neq_6);
CPPUNIT_TEST(p_TokenByScan_token_eq_1);
CPPUNIT_TEST(p_TokenByScan_like_1);
CPPUNIT_TEST(p_IdxList_1);
CPPUNIT_TEST(p_IdxList_2);
// whole block tests
CPPUNIT_TEST(p_Col_1);
CPPUNIT_TEST(p_Col_2);
CPPUNIT_TEST(p_Col_3);
CPPUNIT_TEST(p_Col_4);
// rid array test
CPPUNIT_TEST(p_Col_5);
// whole block range tests
CPPUNIT_TEST(p_Col_6);
CPPUNIT_TEST(p_Col_7);
CPPUNIT_TEST(p_Col_8);
// rid array range test
CPPUNIT_TEST(p_Col_9);
// OT_RID output type tests
CPPUNIT_TEST(p_Col_10);
// OT_BOTH output type tests
CPPUNIT_TEST(p_Col_11);
// 8-bit null value test
CPPUNIT_TEST(p_Col_12);
// alternating NOP, RID pairs on input
CPPUNIT_TEST(p_Col_13);
// double column test
CPPUNIT_TEST(p_Col_double_1);
// float column test
CPPUNIT_TEST(p_Col_float_1);
// negative float column test
CPPUNIT_TEST(p_Col_neg_float_1);
// negative double column test
CPPUNIT_TEST(p_Col_neg_double_1);
// some ports of TokenByScan tests to validate similar & shared code
CPPUNIT_TEST(p_Dictionary_1);
CPPUNIT_TEST(p_Dictionary_2);
CPPUNIT_TEST(p_Dictionary_3);
CPPUNIT_TEST(p_Dictionary_gt_1);
// exercise the OT_TOKEN & OT_INPUTARG output code
CPPUNIT_TEST(p_Dictionary_token_1);
CPPUNIT_TEST(p_Dictionary_inputArg_1);
// add the OT_AGGREGATE output flag
CPPUNIT_TEST(p_Dictionary_token_agg_1);
// restrict the scan to a list of tokens
CPPUNIT_TEST(p_Dictionary_inToken_1);
// test the old GetSignature behavior
// CPPUNIT_TEST(p_Dictionary_oldgetsig_1);
// test & benchmark the new LIKE operator
CPPUNIT_TEST(p_Dictionary_like_1);
CPPUNIT_TEST(p_Dictionary_like_2);
CPPUNIT_TEST(p_Dictionary_like_3);
CPPUNIT_TEST(p_Dictionary_like_4);
// new LIKE-regexp functionality
CPPUNIT_TEST(p_Dictionary_like_5); // "_NDO%a%"
CPPUNIT_TEST(p_Dictionary_like_6); // "%NIT%ING%D%"
CPPUNIT_TEST(p_Dictionary_like_7); // "UNI%TES"
CPPUNIT_TEST(p_Dictionary_like_8); // "%TH_OP%"
// CPPUNIT_TEST(p_Dictionary_like_prefixbench_1);
// CPPUNIT_TEST(p_Dictionary_like_substrbench_1);
// binary data type
CPPUNIT_TEST(p_Col_bin_16);
// CPPUNIT_TEST(p_Col_bin_32);
CPPUNIT_TEST_SUITE_END();
private:
public:
void p_IdxWalk_1_eq_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
// this search should end at FBO 10251 subblock 22 entry 12.
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_EQ;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
while (params->LBID != 10251)
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
CPPUNIT_ASSERT(results.size() == 1);
params = results.at(0);
results.clear();
}
delete params;
close(fd);
}
void p_IdxWalk_1_lt_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_LT;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_1_lte_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_LE;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_1_gt_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_GT;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_1_gte_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_GE;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_1_neq_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_NE;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_1_eq_2()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
// this shouldn't match anywhere
searchKey = (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_EQ;
params->NVALS = 1;
params->SubBlock = 1;
params->SSlen = 14;
pp.setBlockPtr((int*)block);
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
CPPUNIT_ASSERT(results.size() == 0);
results.clear();
close(fd);
}
void p_IdxWalk_2_eq_or_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey[2];
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey[0] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
searchKey[1] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 0;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey[0];
params->SearchString[1] = searchKey[1];
params->COP1 = COMPARE_EQ;
params->COP2 = COMPARE_EQ;
params->BOP = BOP_OR;
params->NVALS = 2;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
CPPUNIT_ASSERT(results.size() == 1);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
// this test singles out the same entry we've used above
void p_IdxWalk_2_range_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey[2];
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey[0] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 2;
searchKey[1] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 0;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey[0];
params->SearchString[1] = searchKey[1];
params->COP1 = COMPARE_LT;
params->COP2 = COMPARE_GT;
params->BOP = BOP_AND;
params->NVALS = 2;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
CPPUNIT_ASSERT(results.size() == 1);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
// this test singles out a contiguous chunk of 3 entries
void p_IdxWalk_2_range_2()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey[2];
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey[0] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 3;
searchKey[1] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey[0];
params->SearchString[1] = searchKey[1];
params->COP1 = COMPARE_LE;
params->COP2 = COMPARE_GE;
params->BOP = BOP_AND;
params->NVALS = 2;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
// this test excludes all entries.
void p_IdxWalk_2_range_3()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey[2];
int fd;
uint32_t err;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey[0] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 3;
searchKey[1] = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey[0];
params->SearchString[1] = searchKey[1];
params->COP1 = COMPARE_GE;
params->COP2 = COMPARE_LE;
params->BOP = BOP_AND;
params->NVALS = 2;
params->SubBlock = 1;
params->SSlen = 64;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
CPPUNIT_ASSERT(results.size() == 0);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_40_eq_or_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err, i;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
vector<Int64>* vTmp;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_EQ;
params->BOP = BOP_OR;
params->NVALS = 40;
params->SubBlock = 1;
params->SSlen = 64;
vTmp = new vector<Int64>();
for (i = 0; i < 40; i++)
vTmp->push_back(searchKey + i);
params->SearchStrings = vTmp;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
if (params->NVALS > 2 && params->State == 0)
delete params->SearchStrings;
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
void p_IdxWalk_40_neq_and_1()
{
PrimitiveProcessor pp;
char block[BLOCK_SIZE];
u_int64_t searchKey;
int fd;
uint32_t err, i;
string filename("FILE_990.dat");
IndexWalkHeader* params;
vector<IndexWalkHeader*> results;
vector<IndexWalkHeader*>::iterator it;
vector<Int64>* vTmp;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxWalk: skipping this test; needs the index tree file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
searchKey = (12LL << 59) | (21LL << 54) | (17LL << 49) | (22LL << 44) | (6LL << 39) | (29LL << 34) |
(10LL << 29) | (19LL << 24) | (6LL << 19) | (0LL << 14) | (24LL << 9) | (3LL << 4) | 1;
params = new IndexWalkHeader();
memset(params, 0, sizeof(IndexWalkHeader));
params->SearchString[0] = searchKey;
params->COP1 = COMPARE_NE;
params->BOP = BOP_AND;
params->NVALS = 40;
params->SubBlock = 1;
params->SSlen = 64;
vTmp = new vector<Int64>();
for (i = 0; i < 40; i++)
vTmp->push_back(searchKey + i);
params->SearchStrings = vTmp;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->LBID * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxWalk(params, &results);
if (params->NVALS > 2 && params->State == 0)
delete params->SearchStrings;
delete params;
params = NULL;
for (it = results.begin(); it != results.end(); it++)
if ((*it)->Shift < (*it)->SSlen)
{
params = *it;
results.erase(it);
break;
}
} while (params != NULL);
// No automatic way to verify the results yet. Need a field that says what
// value was matched so we can verify they're all < the search key.
for (it = results.begin(); it != results.end(); it++)
delete *it;
close(fd);
}
// this test scans the entire block
void p_AggregateSignature_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
AggregateSignatureRequestHeader* cmd;
AggregateSignatureResultHeader* results;
DataValue* dvPtr;
char minmax[BLOCK_SIZE];
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<AggregateSignatureRequestHeader*>(input);
results = reinterpret_cast<AggregateSignatureResultHeader*>(output);
cmd->NVALS = 0;
pp.setBlockPtr((int*)block);
pp.p_AggregateSignature(cmd, results, BLOCK_SIZE, &err);
dvPtr = reinterpret_cast<DataValue*>(&output[sizeof(AggregateSignatureResultHeader)]);
memcpy(minmax, dvPtr->data, dvPtr->len);
minmax[dvPtr->len] = '\0';
CPPUNIT_ASSERT(results->Count == 50);
CPPUNIT_ASSERT(strcmp(minmax, "ALGERIA") == 0);
// cerr << "count is " << results->Count << endl;
// cerr << "min is " << minmax << endl;
dvPtr = reinterpret_cast<DataValue*>(
&output[sizeof(AggregateSignatureResultHeader) + dvPtr->len + sizeof(DataValue)]);
memcpy(minmax, dvPtr->data, dvPtr->len);
minmax[dvPtr->len] = '\0';
CPPUNIT_ASSERT(strcmp(minmax, "XUSSIA") == 0);
// cerr << "max is " << minmax << endl;
}
// this test scans a set of tokens
void p_AggregateSignature_2()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
AggregateSignatureRequestHeader* cmd;
AggregateSignatureResultHeader* results;
DataValue* dvPtr;
char minmax[BLOCK_SIZE];
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<AggregateSignatureRequestHeader*>(input);
results = reinterpret_cast<AggregateSignatureResultHeader*>(output);
cmd->NVALS = 4;
// JORDAN
cmd->tokens[0].LBID = 0;
cmd->tokens[0].offset = 7928;
cmd->tokens[0].len = 6;
// XHINA
cmd->tokens[1].LBID = 0;
cmd->tokens[1].offset = 8074;
cmd->tokens[1].len = 5;
// ARGENTINA
cmd->tokens[2].LBID = 0;
cmd->tokens[2].offset = 7999;
cmd->tokens[2].len = 9;
// UNITED STATES
cmd->tokens[3].LBID = 0;
cmd->tokens[3].offset = 7838;
cmd->tokens[3].len = 13;
pp.setBlockPtr((int*)block);
pp.p_AggregateSignature(cmd, results, BLOCK_SIZE, &err);
dvPtr = reinterpret_cast<DataValue*>(&output[sizeof(AggregateSignatureResultHeader)]);
memcpy(minmax, dvPtr->data, dvPtr->len);
minmax[dvPtr->len] = '\0';
CPPUNIT_ASSERT(results->Count == 4);
CPPUNIT_ASSERT(strcmp(minmax, "ARGENTINA") == 0);
// cerr << "count is " << results->Count << endl;
// cerr << "min is " << minmax << endl;
dvPtr = reinterpret_cast<DataValue*>(
&output[sizeof(AggregateSignatureResultHeader) + dvPtr->len + sizeof(DataValue)]);
memcpy(minmax, dvPtr->data, dvPtr->len);
minmax[dvPtr->len] = '\0';
CPPUNIT_ASSERT(strcmp(minmax, "XHINA") == 0);
// cerr << "max is " << minmax << endl;
}
void p_TokenByScan_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_EQ;
cmd->OutputType = OT_DATAVALUE;
args->len = 5;
strncpy(args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
args = reinterpret_cast<DataValue*>(&results[1]);
args->data[args->len] = '\0'; // not reusable in tests with multiple matches.
CPPUNIT_ASSERT(results->NVALS == 1);
CPPUNIT_ASSERT(args->len == 5);
CPPUNIT_ASSERT(strncmp(args->data, "XHINA", 5) == 0);
}
void p_TokenByScan_2()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 2;
cmd->BOP = BOP_OR;
cmd->COP1 = COMPARE_EQ;
cmd->COP2 = COMPARE_EQ;
cmd->OutputType = OT_DATAVALUE;
args->len = 13;
strncpy(args->data, "UNITED STATES", 13);
args = reinterpret_cast<DataValue*>(
&input[sizeof(TokenByScanRequestHeader) + args->len + sizeof(DataValue)]);
args->len = 5;
strncpy(args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
args = reinterpret_cast<DataValue*>(&results[1]);
memcpy(tmp, args->data, args->len);
tmp[args->len] = '\0';
CPPUNIT_ASSERT(results->NVALS == 2);
// cout << "len is " << args->len << endl;
// cout << "data is " << tmp << endl;
args = reinterpret_cast<DataValue*>(
&output[sizeof(TokenByScanResultHeader) + args->len + sizeof(DataValue)]);
memcpy(tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << "len is " << args->len << endl;
// cout << "data is " << tmp << endl;
}
void p_TokenByScan_3()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 0;
cmd->COP1 = COMPARE_EQ;
cmd->OutputType = OT_DATAVALUE;
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
argsOffset = sizeof(TokenByScanResultHeader);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 50);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_gt_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_GT;
cmd->OutputType = OT_DATAVALUE;
args->len = 7;
strncpy(args->data, "GERMANY", 7);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 41);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_gte_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_GE;
cmd->OutputType = OT_DATAVALUE;
args->len = 7;
strncpy(args->data, "GERMANY", 7);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 42);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_lt_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_LT;
cmd->OutputType = OT_DATAVALUE;
args->len = 7;
strncpy(args->data, "GERMANY", 7);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 8);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_lte_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_LE;
cmd->OutputType = OT_DATAVALUE;
args->len = 7;
strncpy(args->data, "GERMANY", 7);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 9);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_neq_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_NE;
cmd->OutputType = OT_DATAVALUE;
args->len = 7;
strncpy(args->data, "GERMANY", 7);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 49);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_range_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
argsOffset = sizeof(TokenByScanRequestHeader);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
cmd->NVALS = 2;
cmd->COP1 = COMPARE_LT;
cmd->COP2 = COMPARE_GT;
cmd->BOP = BOP_AND;
cmd->OutputType = OT_DATAVALUE;
args->len = 5;
strncpy(args->data, "KENYA", 5);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 6;
strncpy(args->data, "BRAZIL", 6);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 12);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_eq_6()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
argsOffset = sizeof(TokenByScanRequestHeader);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
cmd->NVALS = 6;
cmd->COP1 = COMPARE_EQ;
cmd->BOP = BOP_OR;
cmd->OutputType = OT_DATAVALUE;
args->len = 5;
strncpy(args->data, "KENYA", 5);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 6;
strncpy(args->data, "BRAZIL", 6);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 8;
strncpy(args->data, "ETHIOPIA", 8);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 6;
strncpy(args->data, "CANADA", 6);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 13;
strncpy(args->data, "UNITED_STATES", 13);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 13;
strncpy(args->data, "UNITED STATES", 13);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 5);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_neq_6()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
argsOffset = sizeof(TokenByScanRequestHeader);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
cmd->NVALS = 6;
cmd->COP1 = COMPARE_NE;
cmd->BOP = BOP_AND;
cmd->OutputType = OT_DATAVALUE;
args->len = 5;
strncpy(args->data, "KENYA", 5);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 6;
strncpy(args->data, "BRAZIL", 6);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 8;
strncpy(args->data, "ETHIOPIA", 8);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 6;
strncpy(args->data, "CANADA", 6);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 13;
strncpy(args->data, "UNITED_STATES", 13);
argsOffset += args->len + sizeof(DataValue);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
args->len = 13;
strncpy(args->data, "UNITED STATES", 13);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 45);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_like_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE], tmp[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
int fd, argsOffset, i;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
argsOffset = sizeof(TokenByScanRequestHeader);
args = reinterpret_cast<DataValue*>(&input[argsOffset]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_LIKE;
cmd->BOP = BOP_AND;
cmd->OutputType = OT_DATAVALUE;
args->len = 4;
strncpy(args->data, "%NYA", 4);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(TokenByScanResultHeader);
for (i = 0; i < results->NVALS; i++)
{
args = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, args->data, args->len);
tmp[args->len] = '\0';
// cout << " " << i << ": len=" << args->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + args->len;
}
}
void p_TokenByScan_token_eq_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
TokenByScanRequestHeader* cmd;
TokenByScanResultHeader* results;
DataValue* args;
PrimToken* result;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<TokenByScanRequestHeader*>(input);
results = reinterpret_cast<TokenByScanResultHeader*>(output);
args = reinterpret_cast<DataValue*>(&cmd[1]);
cmd->NVALS = 1;
cmd->COP1 = COMPARE_EQ;
cmd->OutputType = OT_TOKEN;
cmd->LBID = 13; // arbitrary #
args->len = 5;
strncpy(args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_TokenByScan(cmd, results, BLOCK_SIZE);
result = reinterpret_cast<PrimToken*>(&results[1]);
CPPUNIT_ASSERT(results->NVALS == 1);
CPPUNIT_ASSERT(result->len == 5);
CPPUNIT_ASSERT(result->offset == 19);
CPPUNIT_ASSERT(result->LBID == 13);
}
void p_IdxList_1()
{
// there should be a list header (corresponds to the search value we used in
// p_IdxWalk) at FBO 10251 subblock 22 entry 12. The first LBID of the
// index list file is 10000
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], input[BLOCK_SIZE], output[BLOCK_SIZE];
string filename("FILE_991.dat");
IndexListHeader *hdr, *resultHdr;
IndexListParam* params;
IndexListEntry* results;
vector<IndexListEntry> bigResults;
vector<IndexListEntry>::iterator it;
int fd;
uint32_t err, i;
bool continuationPtr;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxList: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
hdr = reinterpret_cast<IndexListHeader*>(input);
params = reinterpret_cast<IndexListParam*>(&input[sizeof(IndexListHeader)]);
resultHdr = reinterpret_cast<IndexListHeader*>(output);
results = reinterpret_cast<IndexListEntry*>(&output[sizeof(IndexListHeader)]);
memset(hdr, 0, sizeof(IndexListHeader));
hdr->NVALS = 1;
params->fbo = 11;
params->sbid = 22;
params->entry = 12;
params->type = LIST_SIZE;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->fbo * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxList(hdr, resultHdr, 0);
// scan for a continuation pointer
continuationPtr = false;
for (i = 0; i < resultHdr->NVALS; i++)
{
if (results[i].type == LLP_SUBBLK || results[i].type == LLP_BLK)
{
// the header for the next iteration can stay the same, the
// argument has to be the LLP entry.
memcpy(params, &results[i], sizeof(IndexListEntry));
CPPUNIT_ASSERT(params->fbo >= 20480);
CPPUNIT_ASSERT(params->fbo < 30720);
params->fbo -= 20480; // this happens to be the base LBID for the test data
continuationPtr = true;
}
else
{
CPPUNIT_ASSERT(results[i].type == RID);
bigResults.push_back(results[i]);
}
}
/*
// this clause doesn't get used in this test b/c there is only one RID
if (results->type == LLP_SUBBLK || results->type == LLP_BLK) {
CPPUNIT_ASSERT(resultHdr->NVALS > 1);
// the header for the next iteration can stay the same, the
// argument has to be the LLP entry.
memcpy(params, results, sizeof(IndexListEntry));
// store the results returned so far
for (i = 1; i < resultHdr->NVALS; i++)
bigResults.push_back(results[i]);
}
else
for (i = 0; i < resultHdr->NVALS; i++)
bigResults.push_back(results[i]);
*/
} while (continuationPtr);
CPPUNIT_ASSERT(bigResults.size() == 1);
// cout << endl << "RID count: " << bigResults.size() << endl;
for (i = 1, it = bigResults.begin(); it != bigResults.end(); it++, i++)
{
// cout << " " << i << ": type=" << (*it).type << " rid=" << (*it).value << endl;
CPPUNIT_ASSERT((*it).type == RID);
CPPUNIT_ASSERT((*it).value == 100);
}
}
void p_IdxList_2()
{
// there should be a list header (corresponds to the search value we used in
// p_IdxWalk) at FBO 10251 subblock 22 entry 12. The first LBID of the
// index list file is 10000
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], input[BLOCK_SIZE], output[BLOCK_SIZE];
string filename("FILE233.cdf");
IndexListHeader *hdr, *resultHdr;
IndexListParam* params;
IndexListEntry* results;
vector<IndexListEntry> bigResults;
vector<IndexListEntry>::iterator it;
int fd;
uint32_t err, i;
bool continuationPtr;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_IdxList: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_IdxWalk: file not found...");
return;
}
hdr = reinterpret_cast<IndexListHeader*>(input);
params = reinterpret_cast<IndexListParam*>(&input[sizeof(IndexListHeader)]);
resultHdr = reinterpret_cast<IndexListHeader*>(output);
results = reinterpret_cast<IndexListEntry*>(&output[sizeof(IndexListHeader)]);
memset(hdr, 0, sizeof(IndexListHeader));
hdr->NVALS = 1;
params->fbo = 11;
params->sbid = 10;
params->entry = 28;
params->type = LIST_SIZE;
pp.setBlockPtr((int*)block);
do
{
lseek(fd, params->fbo * BLOCK_SIZE, SEEK_SET);
err = read(fd, block, BLOCK_SIZE);
if (err <= 0)
{
cerr << "p_IdxWalk: Couldn't read the file " << filename << endl;
throw runtime_error("p_IdxWalk: Couldn't read the file");
}
if (err != BLOCK_SIZE)
{
cerr << "p_IdxWalk: could not read a whole block" << endl;
throw runtime_error("p_IdxWalk: could not read a whole block");
}
pp.p_IdxList(hdr, resultHdr, 0);
// scan for a continuation pointer
continuationPtr = false;
for (i = 0; i < resultHdr->NVALS; i++)
{
if (results[i].type == LLP_SUBBLK || results[i].type == LLP_BLK)
{
// the header for the next iteration can stay the same, the
// argument has to be the LLP entry.
memcpy(params, &results[i], sizeof(IndexListEntry));
CPPUNIT_ASSERT(params->fbo >= 20480);
CPPUNIT_ASSERT(params->fbo < 30720);
params->fbo -= 20480; // this happens to be the base LBID for the test data
continuationPtr = true;
}
else
{
CPPUNIT_ASSERT(results[i].type == RID);
bigResults.push_back(results[i]);
}
}
/*
if (results->type == LLP_SUBBLK || results->type == LLP_BLK) {
CPPUNIT_ASSERT(resultHdr->NVALS > 1);
// the header for the next iteration can stay the same, the
// argument has to be the LLP entry.
memcpy(params, results, sizeof(IndexListEntry));
CPPUNIT_ASSERT(params->fbo >= 20480);
CPPUNIT_ASSERT(params->fbo < 30720);
params->fbo -= 20480; // this happens to be the base LBID for the test data
// store the results returned so far
for (i = 1; i < resultHdr->NVALS; i++)
bigResults.push_back(results[i]);
}
else
for (i = 0; i < resultHdr->NVALS; i++)
bigResults.push_back(results[i]);
*/
} while (continuationPtr);
CPPUNIT_ASSERT(bigResults.size() == 8901);
// cout << endl << "RID count: " << bigResults.size() << endl;
for (i = 1, it = bigResults.begin(); it != bigResults.end(); it++, i++)
{
// cout << " " << i << ": type=" << (*it).type << " rid=" << (*it).value << endl;
CPPUNIT_ASSERT((*it).type == RID);
CPPUNIT_ASSERT((*it).value == (uint32_t)i - 1);
}
}
void p_Col_1()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
uint8_t* results;
int fd;
uint32_t i, written;
string filename("col1block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_1: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_1: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_1: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_1: could not read a whole block" << endl;
throw runtime_error("p_Col_1: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 1;
in->DataType = CalpontSystemCatalog::CHAR;
in->OutputType = OT_DATAVALUE;
in->NOPS = 0;
in->NVALS = 0;
in->InputFlags = 0;
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = &output[sizeof(ColResultHeader)];
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 8160);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == i % 255);
}
close(fd);
}
void p_Col_2()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
uint16_t* results;
uint32_t written, i;
int fd;
string filename("col2block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_2: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_2: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_2: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_2: could not read a whole block" << endl;
throw runtime_error("p_Col_2: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 2;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 0;
in->NVALS = 0;
in->InputFlags = 0;
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<uint16_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 4096);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == i);
}
close(fd);
}
void p_Col_3()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
uint32_t* results;
uint32_t written, i;
int fd;
string filename("col4block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_3: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_3: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_2: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_3: could not read a whole block" << endl;
throw runtime_error("p_Col_3: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 4;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 0;
in->NVALS = 0;
in->InputFlags = 0;
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<uint32_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 2048);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == (uint32_t)i);
}
close(fd);
}
void p_Col_4()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
u_int64_t* results;
uint32_t written, i;
int fd;
string filename("col8block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_4: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_4: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_4: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_4: could not read a whole block" << endl;
throw runtime_error("p_Col_4: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 0;
in->NVALS = 0;
in->InputFlags = 0;
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<u_int64_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 1024);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == (uint32_t)i);
}
close(fd);
}
void p_Col_5()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
uint8_t* results;
uint16_t* rids;
uint32_t written, i;
int fd;
string filename("col1block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_5: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_5: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_5: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_5: could not read a whole block" << endl;
throw runtime_error("p_Col_5: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
rids = reinterpret_cast<uint16_t*>(&in[1]);
in->DataSize = 1;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 0;
in->NVALS = 2;
in->InputFlags = 0;
rids[0] = 20;
rids[1] = 17;
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<uint8_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 2);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == rids[i]);
}
close(fd);
}
void p_Col_6()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
uint32_t* results;
uint32_t written, i;
int fd, tmp;
string filename("col4block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_6: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_6: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_6: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_6: could not read a whole block" << endl;
throw runtime_error("p_Col_6: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&in[1]);
in->DataSize = 4;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 2;
in->BOP = BOP_AND;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 20;
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + sizeof(ColArgs) + in->DataSize]);
args->COP = COMPARE_GT;
tmp = 10;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<uint32_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 9);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == 11 + (uint32_t)i);
}
close(fd);
}
void p_Col_7()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
u_int64_t* results;
uint32_t written, i;
int fd;
int64_t tmp;
string filename("col8block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_7: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_7: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_7: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_7: could not read a whole block" << endl;
throw runtime_error("p_Col_7: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 2;
in->BOP = BOP_OR;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 10;
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + sizeof(ColArgs) + in->DataSize]);
args->COP = COMPARE_GT;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<u_int64_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 33);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == (uint32_t)(i < 10 ? i : i - 10 + 1001));
}
close(fd);
}
void p_Col_8()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
u_int64_t* results;
uint32_t written, i;
int fd;
int64_t tmp;
string filename("col8block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_7: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_7: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_7: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_7: could not read a whole block" << endl;
throw runtime_error("p_Col_7: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 2;
in->BOP = BOP_OR;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 10;
args->COP = COMPARE_EQ;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + sizeof(ColArgs) + in->DataSize]);
args->COP = COMPARE_EQ;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<u_int64_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 2);
CPPUNIT_ASSERT(results[0] == 10);
CPPUNIT_ASSERT(results[1] == 1000);
// for (i = 0; i < out->NVALS; i++) {
// cout << i << ": " << hex << (int)results[i] << dec << endl;
// CPPUNIT_ASSERT(results[i] == (uint32_t) (i < 10 ? i : i - 10 + 1001));
// }
close(fd);
}
void p_Col_9()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
uint16_t* rids;
u_int64_t* results;
uint32_t written, i;
int fd;
int64_t tmp;
string filename("col8block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_9: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_9: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_9: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_9: could not read a whole block" << endl;
throw runtime_error("p_Col_9: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_DATAVALUE;
in->NOPS = 2;
in->BOP = BOP_OR;
in->NVALS = 2;
in->InputFlags = 0;
tmp = 10;
args->COP = COMPARE_EQ;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + sizeof(ColArgs) + in->DataSize]);
args->COP = COMPARE_EQ;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
rids = reinterpret_cast<uint16_t*>(
&input[sizeof(NewColRequestHeader) + 2 * (sizeof(ColArgs) + in->DataSize)]);
rids[0] = 10;
rids[1] = 100;
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<u_int64_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 1);
CPPUNIT_ASSERT(results[0] == 10);
// for (i = 0; i < out->NVALS; i++) {
// cout << i << ": " << hex << (int)results[i] << dec << endl;
// CPPUNIT_ASSERT(results[i] == (uint32_t) (i < 10 ? i : i - 10 + 1001));
// }
close(fd);
}
void p_Col_10()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
int16_t* results;
uint32_t written, i;
int fd;
int64_t tmp;
string filename("col8block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_10: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_10: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_10: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_10: could not read a whole block" << endl;
throw runtime_error("p_Col_10: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_RID;
in->NOPS = 2;
in->BOP = BOP_OR;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 10;
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + sizeof(ColArgs) + in->DataSize]);
args->COP = COMPARE_GT;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<int16_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 33);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == (i < 10 ? i : i - 10 + 1001));
}
close(fd);
}
void p_Col_11()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
int16_t* resultRid;
int64_t* resultVal;
uint32_t written, i;
int fd;
int64_t tmp;
string filename("col8block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_11: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_11: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_11: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_11: could not read a whole block" << endl;
throw runtime_error("p_Col_11: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_BOTH;
in->NOPS = 2;
in->BOP = BOP_OR;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 10;
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + sizeof(ColArgs) + in->DataSize]);
args->COP = COMPARE_GT;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 33);
for (i = 0; i < out->NVALS; i++)
{
resultRid =
reinterpret_cast<int16_t*>(&output[sizeof(ColResultHeader) + i * (sizeof(Int16) + in->DataSize)]);
resultVal = reinterpret_cast<int64_t*>(&resultRid[1]);
// cout << i << ": rid:" << (int) *resultRid << " val:" << *resultVal << endl;
CPPUNIT_ASSERT(*resultRid == (i < 10 ? i : i - 10 + 1001));
CPPUNIT_ASSERT(*resultVal == (i < 10 ? i : i - 10 + 1001));
}
close(fd);
}
void p_Col_12()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
uint8_t* results;
uint32_t written, i;
int fd;
string filename("col1block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_12: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_12: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_12: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_12: could not read a whole block" << endl;
throw runtime_error("p_Col_12: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 1;
in->DataType = CalpontSystemCatalog::CHAR;
in->OutputType = OT_DATAVALUE;
in->BOP = BOP_AND;
in->NOPS = 2;
in->NVALS = 0;
in->InputFlags = 0;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
args->COP = COMPARE_GT;
/* args->val[0] = 0xFC;*/
// We need to test char values if the data type is char
args->val[0] = '2';
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + 2]);
args->COP = COMPARE_LT;
// args->val[0] = 0;
args->val[0] = '4';
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = &output[sizeof(ColResultHeader)];
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 32);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << hex << (int)results[i] << dec << endl;
/* CPPUNIT_ASSERT(results[i] == 0xFD);
cout << i << ": " << (int)results[i] << endl; */
CPPUNIT_ASSERT((int)'3' == results[i]);
}
close(fd);
}
void p_Col_13()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
int16_t* results;
uint32_t written, i;
int fd;
int32_t tmp;
int16_t ridTmp;
string filename("col4block.cdf");
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_13: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_13: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_13: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_13: could not read a whole block" << endl;
throw runtime_error("p_Col_13: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = 4;
in->DataType = CalpontSystemCatalog::INT;
in->OutputType = OT_RID;
in->NOPS = 3;
in->BOP = BOP_OR;
in->NVALS = 3;
in->InputFlags = 1;
// first argument "is RID 8 < 10?" Answer is yes
tmp = 10; // value to check
ridTmp = 8;
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, in->DataSize);
memcpy(&args->val[in->DataSize], &ridTmp, 2);
// second argument "is RID 5 > 10?" Answer is no
args = reinterpret_cast<ColArgs*>(&args->val[in->DataSize + 2]);
args->COP = COMPARE_GT;
tmp = 10;
ridTmp = 5;
memcpy(args->val, &tmp, in->DataSize);
memcpy(&args->val[in->DataSize], &ridTmp, 2);
// third argument "is RID 11 < 1000?" Answer is yes
args = reinterpret_cast<ColArgs*>(&args->val[in->DataSize + 2]);
args->COP = COMPARE_LT;
tmp = 1000;
ridTmp = 11;
memcpy(args->val, &tmp, in->DataSize);
memcpy(&args->val[in->DataSize], &ridTmp, 2);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<int16_t*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 2);
CPPUNIT_ASSERT(results[0] == 8);
CPPUNIT_ASSERT(results[1] == 11);
// for (i = 0; i < out->NVALS; i++) {
// cout << i << ": " << (int)results[i] << endl;
// CPPUNIT_ASSERT(results[i] == (i < 10 ? i : i - 10 + 1001));
// }
close(fd);
}
void p_Col_double_1()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
double* results;
uint32_t written, i;
int fd;
string filename("col_double_block.cdf");
double tmp;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_double_1: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_double_1: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_12: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_double_1: could not read a whole block" << endl;
throw runtime_error("p_Col_double_1: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::DOUBLE;
in->OutputType = OT_DATAVALUE;
in->BOP = BOP_AND;
in->NOPS = 2;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 10.5;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
args->COP = COMPARE_GT;
memcpy(args->val, &tmp, sizeof(tmp));
tmp = 15;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + 9]);
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, sizeof(tmp));
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<double*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 8);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == 11 + (i * 0.5));
}
close(fd);
}
void p_Col_float_1()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
float* resultVal;
uint32_t written, i;
int fd;
string filename("col_float_block.cdf");
float tmp;
int16_t* resultRid;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_float_1: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_float_1: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_float_1: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_float_1: could not read a whole block" << endl;
throw runtime_error("p_Col_float_1: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 4;
in->DataType = CalpontSystemCatalog::FLOAT;
in->OutputType = OT_BOTH;
in->BOP = BOP_AND;
in->NOPS = 2;
in->NVALS = 0;
in->InputFlags = 0;
tmp = 10.5;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
args->COP = COMPARE_GT;
memcpy(args->val, &tmp, sizeof(tmp));
tmp = 15;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + 5]);
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, sizeof(tmp));
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 8);
for (i = 0; i < out->NVALS; i++)
{
resultRid =
reinterpret_cast<int16_t*>(&output[sizeof(ColResultHeader) + i * (sizeof(Int16) + in->DataSize)]);
resultVal = reinterpret_cast<float*>(&resultRid[1]);
// cout << i << ": rid:" << (int) *resultRid << " val:" << *resultVal << endl;
CPPUNIT_ASSERT(*resultVal == 11 + (i * 0.5));
}
close(fd);
}
void p_Col_neg_float_1()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
float* resultVal;
int16_t* resultRid;
uint32_t written, i;
int fd;
string filename("col_neg_float.cdf");
float tmp;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_neg_float_1: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_neg_float_1: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_float_1: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_neg_float_1: could not read a whole block" << endl;
throw runtime_error("p_Col_neg_float_1: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 4;
in->DataType = CalpontSystemCatalog::FLOAT;
in->OutputType = OT_BOTH;
in->BOP = BOP_AND;
in->NOPS = 2;
// in->NOPS = 0;
in->NVALS = 0;
in->InputFlags = 0;
tmp = -5.0;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
args->COP = COMPARE_GT;
memcpy(args->val, &tmp, sizeof(tmp));
tmp = 5.0;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + 5]);
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, sizeof(tmp));
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 19);
for (i = 0; i < out->NVALS; i++)
{
resultRid =
reinterpret_cast<int16_t*>(&output[sizeof(ColResultHeader) + i * (sizeof(Int16) + in->DataSize)]);
resultVal = reinterpret_cast<float*>(&resultRid[1]);
// cout << i << ": rid:" << (int) *resultRid << " val:" << *resultVal << endl;
CPPUNIT_ASSERT(*resultVal == -4.5 + (i * 0.5));
}
close(fd);
}
void p_Col_neg_double_1()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
double* results;
uint32_t written, i;
int fd;
string filename("col_neg_double.cdf");
double tmp;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
cerr << "p_Col_neg_double_1: skipping this test; needs the index list file " << filename << endl;
// throw runtime_error("p_Col_1: file not found...");
return;
}
i = read(fd, block, BLOCK_SIZE);
if (i <= 0)
{
cerr << "p_Col_neg_double_1: Couldn't read the file " << filename << endl;
throw runtime_error("p_Col_neg_double_1: Couldn't read the file");
}
if (i != BLOCK_SIZE)
{
cerr << "p_Col_neg_double_1: could not read a whole block" << endl;
throw runtime_error("p_Col_neg_double_1: could not read a whole block");
}
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
in->DataSize = 8;
in->DataType = CalpontSystemCatalog::DOUBLE;
in->OutputType = OT_DATAVALUE;
in->BOP = BOP_AND;
in->NOPS = 2;
in->NVALS = 0;
in->InputFlags = 0;
tmp = -5.0;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
args->COP = COMPARE_GT;
memcpy(args->val, &tmp, sizeof(tmp));
tmp = 5.0;
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader) + 9]);
args->COP = COMPARE_LT;
memcpy(args->val, &tmp, sizeof(tmp));
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<double*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT(out->NVALS == 19);
for (i = 0; i < out->NVALS; i++)
{
// cout << i << ": " << results[i] << dec << endl;
CPPUNIT_ASSERT(results[i] == -4.5 + (i * 0.5));
}
close(fd);
}
template <uint8_t W>
struct binary;
typedef binary<16> binary16;
typedef binary<32> binary32;
template <uint8_t W>
struct binary
{
unsigned char data[W]; // May be ok for empty value ?
void operator=(uint64_t v)
{
*((uint64_t*)data) = v;
memset(data + 8, 0, W - 8);
}
inline uint8_t& operator[](const int index)
{
return *((uint8_t*)(data + index));
}
inline uint64_t& uint64(const int index)
{
return *((uint64_t*)(data + (index << 3)));
}
};
void p_Col_bin_16()
{
PrimitiveProcessor pp;
uint8_t input[BLOCK_SIZE], output[4 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
binary16* results;
uint32_t written, i;
int fd;
binary16 tmp;
binary16* bin16 = (binary16*)block;
for (int i = 0; i < BLOCK_SIZE / 16; i++)
{
bin16[i] = 0;
}
bin16[0].uint64(0) = 10UL;
bin16[1].uint64(0) = 1000UL;
bin16[3].uint64(0) = 1000UL;
bin16[3].uint64(1) = 1;
bin16[4].uint64(0) = 256;
bin16[4].uint64(1) = 1;
typedef char bin16_t[16];
*(uint64_t*)(((bin16_t*)block) + 5) = 500;
*(uint64_t*)&((bin16_t*)block)[6] = 501;
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = sizeof(binary16);
in->DataType = execplan::CalpontSystemCatalog::DECIMAL;
in->OutputType = OT_DATAVALUE;
in->NOPS = 3;
in->BOP = BOP_OR;
in->NVALS = 0;
tmp = 10;
args->COP = COMPARE_EQ;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(args->val + in->DataSize);
args->COP = COMPARE_EQ;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(args->val + in->DataSize);
tmp.uint64(0) = 256;
tmp.uint64(1) = 1;
args->COP = COMPARE_EQ;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<binary16*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT_EQUAL((uint16_t)3, out->NVALS);
CPPUNIT_ASSERT_EQUAL((u_int64_t)10, results[0].uint64(0));
CPPUNIT_ASSERT_EQUAL((u_int64_t)1000, results[1].uint64(0));
for (i = 0; i < out->NVALS; i++)
{
printf("Result %d Value %016X%016X\n", i, results[i].uint64(1), results[i].uint64(0));
// CPPUNIT_ASSERT(results[i] == (uint32_t) (i < 10 ? i : i - 10 + 1001));
}
}
void p_Col_bin_32()
{
PrimitiveProcessor pp;
uint8_t input[2 * BLOCK_SIZE], output[8 * BLOCK_SIZE], block[BLOCK_SIZE];
NewColRequestHeader* in;
ColResultHeader* out;
ColArgs* args;
binary32* results;
uint32_t written, i;
int fd;
binary32 tmp;
binary32* bin32 = (binary32*)block;
for (int i = 0; i < BLOCK_SIZE / 32; i++)
{
bin32[i].uint64(0) = 0;
}
bin32[0].uint64(0) = 10UL;
bin32[1].uint64(0) = 1000UL;
bin32[3].uint64(0) = 1000UL;
bin32[3].uint64(1) = 1;
bin32[4].uint64(0) = 256;
bin32[4].uint64(1) = 254;
bin32[4].uint64(2) = 253;
bin32[4].uint64(3) = 252;
typedef char bin32_t[32];
*(uint64_t*)(((bin32_t*)block) + 5) = 500;
*(uint64_t*)&((bin32_t*)block)[6] = 501;
memset(input, 0, BLOCK_SIZE);
memset(output, 0, 4 * BLOCK_SIZE);
in = reinterpret_cast<NewColRequestHeader*>(input);
out = reinterpret_cast<ColResultHeader*>(output);
args = reinterpret_cast<ColArgs*>(&input[sizeof(NewColRequestHeader)]);
in->DataSize = sizeof(binary32);
in->DataType = execplan::CalpontSystemCatalog::BINARY;
in->OutputType = OT_DATAVALUE;
in->NOPS = 3;
in->BOP = BOP_OR;
in->NVALS = 0;
tmp = 10;
args->COP = COMPARE_EQ;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(args->val + in->DataSize);
args->COP = COMPARE_EQ;
tmp = 1000;
memcpy(args->val, &tmp, in->DataSize);
args = reinterpret_cast<ColArgs*>(args->val + in->DataSize);
tmp.uint64(0) = 256;
tmp.uint64(1) = 254;
tmp.uint64(2) = 253;
tmp.uint64(3) = 252;
args->COP = COMPARE_EQ;
memcpy(args->val, &tmp, in->DataSize);
pp.setBlockPtr((int*)block);
pp.p_Col(in, out, 4 * BLOCK_SIZE, &written);
results = reinterpret_cast<binary32*>(&output[sizeof(ColResultHeader)]);
// cout << "NVALS = " << out->NVALS << endl;
CPPUNIT_ASSERT_EQUAL((uint16_t)3, out->NVALS);
// CPPUNIT_ASSERT_EQUAL((u_int64_t)10, results[0].uint64(0));
// CPPUNIT_ASSERT_EQUAL((u_int64_t)1000, results[1].uint64(0));
for (i = 0; i < out->NVALS; i++)
{
printf("Result %d Value %016X%016X%016X%016X\n", i, results[i].uint64(3), results[i].uint64(2),
results[i].uint64(1), results[i].uint64(0));
// CPPUNIT_ASSERT(results[i] == (uint32_t) (i < 10 ? i : i - 10 + 1001));
}
}
void p_Dictionary_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_EQ;
args->len = 5;
strncpy((char*)args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
outValue = reinterpret_cast<DataValue*>(&results[1]);
outValue->data[args->len] = '\0'; // not reusable in tests with multiple matches.
CPPUNIT_ASSERT(results->NVALS == 1);
CPPUNIT_ASSERT(outValue->len == 5);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "XHINA", 5) == 0);
}
void p_Dictionary_2()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 2;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_OR;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_EQ;
args->len = 13;
strncpy((char*)args->data, "UNITED STATES", 13);
args = reinterpret_cast<DictFilterElement*>(
&input[sizeof(DictInput) + args->len + sizeof(DictFilterElement)]);
args->COP = COMPARE_EQ;
args->len = 5;
strncpy((char*)args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
outValue = reinterpret_cast<DataValue*>(&results[1]);
CPPUNIT_ASSERT(results->NVALS == 2);
CPPUNIT_ASSERT(outValue->len == 5);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "XHINA", 5) == 0);
outValue = reinterpret_cast<DataValue*>(&output[sizeof(DictOutput) + sizeof(DataValue) + outValue->len]);
CPPUNIT_ASSERT(outValue->len == 13);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "UNITED STATES", 13) == 0);
}
void p_Dictionary_3()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 0;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 50);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << i << ": len=" << outValue->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_gt_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_GT;
args->len = 7;
strncpy((char*)args->data, "GERMANY", 7);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 41);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << i << ": len=" << outValue->len << " data=" << tmp << endl;
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_token_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
PrimToken* outToken;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 2;
cmd->OutputType = OT_TOKEN;
cmd->BOP = BOP_OR;
cmd->LBID = 56878; // random magic
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_EQ;
args->len = 13;
strncpy((char*)args->data, "UNITED STATES", 13);
args = reinterpret_cast<DictFilterElement*>(
&input[sizeof(DictInput) + args->len + sizeof(DictFilterElement)]);
args->COP = COMPARE_EQ;
args->len = 5;
strncpy((char*)args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
CPPUNIT_ASSERT(results->NVALS == 2);
outToken = reinterpret_cast<PrimToken*>(&results[1]);
CPPUNIT_ASSERT(outToken->len == 5);
CPPUNIT_ASSERT(outToken->LBID == cmd->LBID);
CPPUNIT_ASSERT(outToken->offset == 19);
CPPUNIT_ASSERT(outToken[1].len == 13);
CPPUNIT_ASSERT(outToken[1].LBID == cmd->LBID);
CPPUNIT_ASSERT(outToken[1].offset == 50);
}
void p_Dictionary_inputArg_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 2;
cmd->OutputType = OT_INPUTARG;
cmd->BOP = BOP_OR;
cmd->LBID = 56878; // random magic
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_EQ;
args->len = 13;
strncpy((char*)args->data, "UNITED STATES", 13);
args = reinterpret_cast<DictFilterElement*>(
&input[sizeof(DictInput) + args->len + sizeof(DictFilterElement)]);
args->COP = COMPARE_EQ;
args->len = 5;
strncpy((char*)args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
CPPUNIT_ASSERT(results->NVALS == 2);
outValue = reinterpret_cast<DataValue*>(&results[1]);
CPPUNIT_ASSERT(results->NVALS == 2);
CPPUNIT_ASSERT(outValue->len == 5);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "XHINA", 5) == 0);
outValue = reinterpret_cast<DataValue*>(&output[sizeof(DictOutput) + sizeof(DataValue) + outValue->len]);
CPPUNIT_ASSERT(outValue->len == 13);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "UNITED STATES", 13) == 0);
}
void p_Dictionary_token_agg_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
PrimToken* outToken;
DictAggregate* agg;
DataValue* outValue;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 2;
cmd->OutputType = OT_TOKEN | OT_AGGREGATE;
cmd->BOP = BOP_OR;
cmd->LBID = 56878; // random magic
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_EQ;
args->len = 13;
strncpy((char*)args->data, "UNITED STATES", 13);
args = reinterpret_cast<DictFilterElement*>(
&input[sizeof(DictInput) + args->len + sizeof(DictFilterElement)]);
args->COP = COMPARE_EQ;
args->len = 5;
strncpy((char*)args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
CPPUNIT_ASSERT(results->NVALS == 2);
outToken = reinterpret_cast<PrimToken*>(&results[1]);
CPPUNIT_ASSERT(outToken->len == 5);
CPPUNIT_ASSERT(outToken->LBID == cmd->LBID);
CPPUNIT_ASSERT(outToken->offset == 19);
CPPUNIT_ASSERT(outToken[1].len == 13);
CPPUNIT_ASSERT(outToken[1].LBID == cmd->LBID);
CPPUNIT_ASSERT(outToken[1].offset == 50);
agg = reinterpret_cast<DictAggregate*>(&outToken[2]);
CPPUNIT_ASSERT(agg->Count == 50);
// min follows
outValue = reinterpret_cast<DataValue*>(&agg[1]);
CPPUNIT_ASSERT(outValue->len == 7);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "ALGERIA", 7) == 0);
// max follows
outValue = reinterpret_cast<DataValue*>(((int8_t*)outValue) + sizeof(DataValue) + outValue->len);
CPPUNIT_ASSERT(outValue->len == 6);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "XUSSIA", 6) == 0);
}
void p_Dictionary_inToken_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DictAggregate* agg;
PrimToken* outToken;
DataValue* outValue;
int fd;
uint32_t err;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&input[sizeof(DictInput) + 3 * sizeof(PrimToken)]);
cmd->NOPS = 2;
cmd->OutputType = OT_TOKEN | OT_AGGREGATE;
cmd->BOP = BOP_OR;
cmd->LBID = 56878; // random magic
cmd->NVALS = 3;
cmd->InputFlags = 0;
cmd->tokens[0].LBID = 56878;
cmd->tokens[0].offset = 7838; // UNITED STATES
cmd->tokens[0].len = 13;
cmd->tokens[1].LBID = 56878;
cmd->tokens[1].offset = 7890; // ROMANIA
cmd->tokens[1].len = 7;
cmd->tokens[2].LBID = 56878;
cmd->tokens[2].offset = 8074; // XHINA
cmd->tokens[2].len = 5;
args->COP = COMPARE_EQ;
args->len = 13;
strncpy((char*)args->data, "UNITED STATES", 13);
args = reinterpret_cast<DictFilterElement*>(
&input[sizeof(DictInput) + 3 * sizeof(PrimToken) + args->len + sizeof(DictFilterElement)]);
args->COP = COMPARE_EQ;
args->len = 5;
strncpy((char*)args->data, "XHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
CPPUNIT_ASSERT(results->NVALS == 2);
outToken = reinterpret_cast<PrimToken*>(&results[1]);
CPPUNIT_ASSERT(outToken[0].len == 13);
CPPUNIT_ASSERT(outToken[0].LBID == cmd->LBID);
CPPUNIT_ASSERT(outToken[0].offset == 50);
CPPUNIT_ASSERT(outToken[1].len == 5);
CPPUNIT_ASSERT(outToken[1].LBID == cmd->LBID);
CPPUNIT_ASSERT(outToken[1].offset == 19);
agg = reinterpret_cast<DictAggregate*>(&outToken[2]);
CPPUNIT_ASSERT(agg->Count == 3);
// min follows
outValue = reinterpret_cast<DataValue*>(&agg[1]);
CPPUNIT_ASSERT(outValue->len == 7);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "ROMANIA", 7) == 0);
// max follows
outValue = reinterpret_cast<DataValue*>(((int8_t*)outValue) + sizeof(DataValue) + outValue->len);
CPPUNIT_ASSERT(outValue->len == 5);
CPPUNIT_ASSERT(strncmp((char*)outValue->data, "XHINA", 5) == 0);
}
void p_Dictionary_oldgetsig_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
#pragma pack(push, 1)
struct OldSigArgs
{
uint64_t rid;
uint16_t offsetIndex;
} * args;
#pragma pack(pop)
struct OldResults
{
uint64_t rid;
DataValue value;
} * oldResults;
int fd, argsOffset;
uint32_t err;
// char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<OldSigArgs*>(&cmd[1]);
cmd->NOPS = 0;
cmd->OutputType = OT_RID | OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 2;
cmd->InputFlags = 1;
args[0].rid = 0x1234567891011121LL;
args[0].offsetIndex = 48; // RUSSIA
args[1].rid = 0x1121110987654321LL;
args[1].offsetIndex = 38; // JAPAN
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << " nvals = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(DictOutput);
oldResults = reinterpret_cast<OldResults*>(&output[argsOffset]);
// strncpy(tmp, oldResults->value.data, oldResults->value.len);
// tmp[oldResults->value.len] = '\0';
// cout << " oldResults.rid = " << oldResults->rid << endl;
// cout << " oldResults.value = " << tmp << endl;
CPPUNIT_ASSERT(oldResults->value.len == 6);
CPPUNIT_ASSERT(strncmp(oldResults->value.data, "RUSSIA", 6) == 0);
CPPUNIT_ASSERT(oldResults->rid == 0x1234567891011121LL);
argsOffset += 8 + 2 + oldResults->value.len;
oldResults = reinterpret_cast<OldResults*>(&output[argsOffset]);
// strncpy(tmp, oldResults->value.data, oldResults->value.len);
// tmp[oldResults->value.len] = '\0';
// cout << " oldResults.rid = " << oldResults->rid << endl;
// cout << " oldResults.value = " << tmp << endl;
CPPUNIT_ASSERT(oldResults->value.len == 5);
CPPUNIT_ASSERT(strncmp(oldResults->value.data, "JAPAN", 5) == 0);
CPPUNIT_ASSERT(oldResults->rid == 0x1121110987654321LL);
}
void p_Dictionary_like_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 5;
strncpy((char*)args->data, "%HINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << i << ": len=" << outValue->len << " data=" << tmp << endl;
if (i == 0)
CPPUNIT_ASSERT(strncmp(tmp, "XHINA", 5) == 0);
else if (i == 1)
CPPUNIT_ASSERT(strncmp(tmp, "CHINA", 5) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_2()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 5;
strncpy((char*)args->data, "%HIN%", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << i << ": len=" << outValue->len << " data=" << tmp << endl;
if (i == 0)
CPPUNIT_ASSERT(strncmp(tmp, "XHINA", 5) == 0);
else if (i == 1)
CPPUNIT_ASSERT(strncmp(tmp, "CHINA", 5) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_3()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 4;
strncpy((char*)args->data, "CHI%", 4);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 1);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
CPPUNIT_ASSERT(strncmp(tmp, "CHINA", 5) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_4()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 5;
strncpy((char*)args->data, "CHINA", 5);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 1);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
CPPUNIT_ASSERT(strncmp(tmp, "CHINA", 5) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_5()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 7;
strncpy((char*)args->data, "_NDO%A%", 7);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << tmp << endl;
if (i == 0)
CPPUNIT_ASSERT(strncmp(tmp, "XNDONESIA", 9) == 0);
else
CPPUNIT_ASSERT(strncmp(tmp, "INDONESIA", 9) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_6()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 11;
strncpy((char*)args->data, "%NIT%ING%D%", 11);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << tmp << endl;
if (i == 0)
CPPUNIT_ASSERT(strncmp(tmp, "XNITED KINGDOM", 14) == 0);
else
CPPUNIT_ASSERT(strncmp(tmp, "UNITED KINGDOM", 14) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_7()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 7;
strncpy((char*)args->data, "UNI%TES", 7);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 1);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << tmp << endl;
CPPUNIT_ASSERT(strncmp(tmp, "UNITED STATES", 13) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_8()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
DataValue* outValue;
int fd, argsOffset;
uint32_t err, i;
char tmp[BLOCK_SIZE];
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 7;
strncpy((char*)args->data, "%TH_OP%", 7);
pp.setBlockPtr((int*)block);
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
// cout << "NVALS = " << results->NVALS << endl;
CPPUNIT_ASSERT(results->NVALS == 2);
argsOffset = sizeof(DictOutput);
for (i = 0; i < results->NVALS; i++)
{
outValue = reinterpret_cast<DataValue*>(&output[argsOffset]);
strncpy((char*)tmp, outValue->data, outValue->len);
tmp[outValue->len] = '\0';
// cout << " " << tmp << endl;
if (i == 0)
CPPUNIT_ASSERT(strncmp(tmp, "XTHIOPIA", 8) == 0);
else
CPPUNIT_ASSERT(strncmp(tmp, "ETHIOPIA", 8) == 0);
argsOffset += sizeof(DataValue) + outValue->len;
}
}
void p_Dictionary_like_prefixbench_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
int fd;
uint32_t err;
uint64_t count;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 4;
strncpy((char*)args->data, "CHI%", 4);
pp.setBlockPtr((int*)block);
done = 0;
count = 0;
signal(SIGALRM, alarm_handler);
alarm(30);
while (!done)
{
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
count++;
}
cout << endl << " - did a LIKE comparison looking for CHI%, " << count << " times in 30 seconds" << endl;
}
void p_Dictionary_like_substrbench_1()
{
PrimitiveProcessor pp;
uint8_t block[BLOCK_SIZE], output[BLOCK_SIZE], input[BLOCK_SIZE];
string filename("dictblock.cdf");
DictInput* cmd;
DictOutput* results;
DictFilterElement* args;
int fd;
uint32_t err;
uint64_t count;
fd = open(filename.c_str(), O_RDONLY);
if (fd < 0)
{
perror("open");
return;
}
err = read(fd, block, BLOCK_SIZE);
if (err < 0)
{
perror("read");
return;
}
if (err != BLOCK_SIZE)
{
cerr << "Failed to read the file in one op, check the filelength and try again." << endl;
return;
}
close(fd);
cmd = reinterpret_cast<DictInput*>(input);
results = reinterpret_cast<DictOutput*>(output);
args = reinterpret_cast<DictFilterElement*>(&cmd[1]);
cmd->NOPS = 1;
cmd->OutputType = OT_DATAVALUE;
cmd->BOP = BOP_NONE;
cmd->NVALS = 0;
cmd->InputFlags = 0;
args->COP = COMPARE_LIKE;
args->len = 4;
strncpy((char*)args->data, "%HI%", 4);
pp.setBlockPtr((int*)block);
done = 0;
count = 0;
signal(SIGALRM, alarm_handler);
alarm(30);
while (!done)
{
pp.p_Dictionary(cmd, results, BLOCK_SIZE);
count++;
}
cout << endl << " - did a LIKE comparison looking for %HI%, " << count << " times in 30 seconds" << endl;
}
};
CPPUNIT_TEST_SUITE_REGISTRATION(PrimTest);
#include <cppunit/extensions/TestFactoryRegistry.h>
#include <cppunit/ui/text/TestRunner.h>
int main(int argc, char** argv)
{
CppUnit::TextUi::TestRunner runner;
CppUnit::TestFactoryRegistry& registry = CppUnit::TestFactoryRegistry::getRegistry();
runner.addTest(registry.makeTest());
bool wasSuccessful = runner.run("", false);
return (wasSuccessful ? 0 : 1);
}
View Git Blame Copy Permalink