MojErr MojDbPerfCreateTest::run()
{
MojErr err = file.open(CreateTestFileName, MOJ_O_RDWR | MOJ_O_CREAT | MOJ_O_TRUNC, MOJ_S_IRUSR | MOJ_S_IWUSR);
MojString buf;
err = buf.format("MojoDb Create Performance Test,,,,,\n\nOperation,Kind,Total Time,Time Per Iteration,Time Per Object\n");
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
err = testCreate();
MojTestErrCheck(err);
allTestsTime += totalTestTime;
err = MojPrintF("\n\n TOTAL TEST TIME: %llu nanoseconds. | %10.3f seconds.\n\n", totalTestTime, totalTestTime / 1000000000.0f);
MojTestErrCheck(err);
err = MojPrintF("\n-------\n");
MojTestErrCheck(err);
err = buf.format("\n\nTOTAL TEST TIME,,%llu,,,", totalTestTime);
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
err = file.close();
MojTestErrCheck(err);
return MojErrNone;
}
MojErr MojDbPerfUpdateTest::updateObjsViaPut(MojDb& db, const MojChar* kindId, MojErr (MojDbPerfTest::*createFn) (MojObject&, MojUInt64))
{
// register all the kinds
MojTime time;
MojErr err = putKinds(db, time);
MojTestErrCheck(err);
// put objects using createFn
MojObject objs;
err = putObjs(db, kindId, numInsertForPut, createFn, objs);
MojTestErrCheck(err);
MojObject midObj;
bool found = objs.at(numInsertForPut/2, midObj);
MojTestAssert(found);
MojTime objTime;
err = putObj(db, midObj, objTime);
MojTestErrCheck(err);
MojUInt64 putTime = objTime.microsecs();
err = MojPrintF("\n -------------------- \n");
MojTestErrCheck(err);
err = MojPrintF(" putting single object - index %llu - of kind %s %llu times took: %llu microsecs\n", numInsertForPut/2, kindId, numPutIterations, putTime);
MojTestErrCheck(err);
err = MojPrintF(" time per put: %llu microsecs", (putTime) / (numPutIterations));
MojTestErrCheck(err);
err = MojPrintF("\n\n");
MojTestErrCheck(err);
MojString buf;
err = buf.format("Put single object - index %llu - %llu times,%s,%llu,%llu,%llu,\n", numInsertForPut/2, numPutIterations, kindId, putTime, putTime/numPutIterations, putTime/(1*numPutIterations));
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
MojTime batchTime;
MojObject::ArrayIterator beginArr;
err = objs.arrayBegin(beginArr);
MojErrCheck(err);
err = batchPutObj(db, beginArr, beginArr + (numInsertForPut / 10), batchTime);
putTime = batchTime.microsecs();
MojTestErrCheck(err);
err = MojPrintF(" putting batch - %llu objects - of kind %s %llu times took: %llu microsecs\n", numInsertForPut/10, kindId, numBatchPutIterations, putTime);
MojTestErrCheck(err);
err = MojPrintF(" time per batch put: %llu microsecs\n", (putTime) / (numBatchPutIterations));
MojTestErrCheck(err);
err = MojPrintF(" time per object: %llu microsecs", (putTime) / (numInsertForPut/10 * numBatchPutIterations));
MojTestErrCheck(err);
err = MojPrintF("\n\n");
MojTestErrCheck(err);
err = buf.format("Batch put %llu objects %llu times,%s,%llu,%llu,%llu,\n", numInsertForPut/10, numBatchPutIterations, kindId, putTime, putTime/numBatchPutIterations, putTime/(numInsertForPut/10*numBatchPutIterations));
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
return MojErrNone;
}
// This is called by tester in Simple.cpp
void TestFilter::audioFileTest(float **audioFile, const int &fileLength, const int &numChannels) {
if (!_iWhichFilter) {
for ( int i=0; i<numChannels; i++ ) {
testFIR -> filterProcess(audioFile[i], fileLength, i);
}
fileWrite(audioFile, "FIRAudioFileTestResult.txt", fileLength, numChannels);
} else {
for ( int i=0; i<numChannels; i++ ) {
testIIR -> filterProcess(audioFile[i], fileLength, i);
}
fileWrite(audioFile, "IIRAudioFileTestResult.txt", fileLength, numChannels);
}
}
// This is called by testee1 and testee2 in Simple.cpp
void TestFilter::zeroInputTest() {
initTestSignal();
if( !_iWhichFilter ) {
testFIR->filterProcess( _fTestSignal, 100, 0);
fileWrite( _fTestSignal, "FIRZeroInputTest.txt", 100 );
}
else {
testIIR->filterProcess( _fTestSignal, 100, 0);
fileWrite( _fTestSignal, "IIRZeroInputTest.txt", 100 );
}
}
bool CMake::writeWorkspace()
{
// open output file
fileOpen("CMakeLists.txt");
fileWrite("cmake_minimum_required(VERSION 2.8.1)\n\n");
// set configurations
fileWrite(String("set(CMAKE_CONFIGURATION_TYPES ") + join(configurations) + ")\n");
fileWrite("set(CMAKE_CONFIGURATION_TYPES \"${CMAKE_CONFIGURATION_TYPES}\" CACHE STRING \"Supported configuration types\" FORCE)\n\n");
// set default configuration
if(!configurations.isEmpty())
{
const String& defaultConfigName = configurations.getFirst()->data;
fileWrite(String("if(CMAKE_BUILD_TYPE STREQUAL \"\")\n"));
fileWrite(String("set(CMAKE_BUILD_TYPE \"") + defaultConfigName + "\")\n");
fileWrite(String("endif()\n\n"));
}
// set solution name
fileWrite(String("project(") + workspaceName + ")\n\n");
// write project list
for(const Map<String, Project>::Node* i = projects.getFirst(); i; i = i->getNext())
fileWrite(String("add_subdirectory(.CMake/") + i->key + ")\n");
fileClose();
return true;
}
MojErr MojDbPerfUpdateTest::testMerge(MojDb& db)
{
MojString buf;
MojErr err = buf.format("\nUPDATE VIA MERGE,,,,,\n");
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfSmKindId, &MojDbPerfTest::createSmallObj);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfMedKindId, &MojDbPerfTest::createMedObj);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfLgKindId, &MojDbPerfTest::createLargeObj);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfMedNestedKindId, &MojDbPerfTest::createMedNestedObj);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfLgNestedKindId, &MojDbPerfTest::createLargeNestedObj);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfMedArrayKindId, &MojDbPerfTest::createMedArrayObj);
MojTestErrCheck(err);
err = updateObjsViaMerge(db, MojPerfLgArrayKindId, &MojDbPerfTest::createLargeArrayObj);
MojTestErrCheck(err);
return MojErrNone;
}
size_t FileStream::write(const uint8_t *buffer, size_t size)
{
if (!fileExist()) return 0;
bool result = fileSeek(handle, 0, eSO_FileEnd);
return fileWrite(handle, buffer, size);
}
MojErr MojDbPerfUpdateTest::testUpdateKind(MojDb& db)
{
MojString buf;
MojErr err = buf.format("\nUPDATE KIND,,,,,\n");
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
err = updateKind(db, MojPerfSmKindId, MojPerfSmKindStr, MojPerfSmKindExtraIndex, &MojDbPerfTest::createSmallObj);
MojTestErrCheck(err);
err = updateKind(db, MojPerfMedKindId, MojPerfMedKindStr, MojPerfMedKindExtraIndex, &MojDbPerfTest::createMedObj);
MojTestErrCheck(err);
err = updateKind(db, MojPerfLgKindId, MojPerfLgKindStr, MojPerfLgKindExtraIndex, &MojDbPerfTest::createLargeObj);
MojTestErrCheck(err);
err = updateKind(db, MojPerfMedNestedKindId, MojPerfMedNestedKindStr, MojPerfMedNestedKindExtraIndex, &MojDbPerfTest::createMedNestedObj);
MojTestErrCheck(err);
err = updateKind(db, MojPerfLgNestedKindId, MojPerfLgNestedKindStr, MojPerfLgNestedKindExtraIndex, &MojDbPerfTest::createLargeNestedObj);
MojTestErrCheck(err);
err = updateKind(db, MojPerfMedArrayKindId, MojPerfMedArrayKindStr, MojPerfMedArrayKindExtraIndex, &MojDbPerfTest::createMedArrayObj);
MojTestErrCheck(err);
err = updateKind(db, MojPerfLgArrayKindId, MojPerfLgArrayKindStr, MojPerfLgArrayKindExtraIndex, &MojDbPerfTest::createLargeArrayObj);
MojTestErrCheck(err);
return MojErrNone;
}
void HttpClient::writeRawData(pbuf* buf, int startPos)
{
switch (mode)
{
case eHCM_String:
{
responseStringData += NetUtils::pbufStrCopy(buf, startPos,
buf->tot_len - startPos);
break;
}
case eHCM_File:
{
pbuf *cur = buf;
while (cur != NULL && cur->len > 0 && !writeError)
{
char* ptr = (char*) cur->payload + startPos;
int len = cur->len - startPos;
int res = fileWrite(saveFile, ptr, len);
writeError |= (res < 0);
cur = cur->next;
startPos = 0;
}
if (writeError)
close();
}
}
}
// This is called by testee1 and testee2 in Simple.cpp
void TestFilter::unitImpulseTest() {
initTestSignal();
//unit impulse
_fTestSignal[0] = 1.0f;
if( !_iWhichFilter ) {
testFIR->filterProcess( _fTestSignal, 100, 0);
fileWrite( _fTestSignal, "FIRUnitImpulseFilter.txt", 100 );
}
else {
testIIR->filterProcess( _fTestSignal, 100, 0 );
fileWrite( _fTestSignal, "IIRUnitImpulseFilter.txt", 100 );
}
}
void Grafo::impimir_color(std::string fileTestWrite){
std::ofstream fileWrite (fileTestWrite.c_str(), std::ofstream::app);
for(Vertice& v : vertices_) {
fileWrite << v.dame_color() << " ";
}
fileWrite << std::endl;
}
bool fileWrite(const void *buffer, const char *path, u32 size)
{
FIL file;
FRESULT result;
switch(f_open(&file, path, FA_WRITE | FA_OPEN_ALWAYS))
{
case FR_OK:
{
unsigned int written;
result = f_write(&file, buffer, size, &written);
if(result == FR_OK) result = f_truncate(&file);
result |= f_close(&file);
return result == FR_OK && (u32)written == size;
}
case FR_NO_PATH:
for(u32 i = 1; path[i] != 0; i++)
if(path[i] == '/')
{
char folder[i + 1];
memcpy(folder, path, i);
folder[i] = 0;
result = f_mkdir(folder);
}
return result == FR_OK && fileWrite(buffer, path, size);
default:
return false;
}
}
MojErr MojDbPerfUpdateTest::updateKind(MojDb& db, const MojChar* kindId, const MojChar* kindJson, const MojChar* extraIdxJson, MojErr (MojDbPerfTest::*createFn) (MojObject&, MojUInt64))
{
// register all the kinds
MojTime time;
MojErr err = putKinds(db, time);
MojTestErrCheck(err);
// put objects using createFn
MojObject objs;
err = putObjs(db, kindId, numObjectsBeforeUpdateKind, createFn, objs);
MojTestErrCheck(err);
// add an index
MojObject kindObj;
err = kindObj.fromJson(kindJson);
MojTestErrCheck(err);
MojObject indexes;
kindObj.get(_T("indexes"), indexes);
MojTestErrCheck(err);
MojObject extraIdx;
err = extraIdx.fromJson(extraIdxJson);
MojTestErrCheck(err);
indexes.push(extraIdx);
err = kindObj.put(_T("indexes"), indexes);
MojTestErrCheck(err);
MojTime addIndexTime;
MojTime dropIndexTime;
err = timeUpdateKind(db, kindJson, kindObj, addIndexTime, dropIndexTime);
MojTestErrCheck(err);
MojUInt64 addTime = addIndexTime.microsecs();
MojUInt64 dropTime = dropIndexTime.microsecs();
err = MojPrintF("\n -------------------- \n");
MojTestErrCheck(err);
err = MojPrintF(" updating kind %s - adding index %s %llu times took: %llu microsecs\n", kindId, extraIdxJson, numUpdateKindIterations, addTime);
MojTestErrCheck(err);
err = MojPrintF(" time per add/reindex: %llu microsecs\n", (addTime) / (numUpdateKindIterations));
MojTestErrCheck(err);
err = MojPrintF(" updating kind %s - dropping index %s %llu times took: %llu microsecs\n", kindId, extraIdxJson, numUpdateKindIterations, dropTime);
MojTestErrCheck(err);
err = MojPrintF(" time per drop: %llu microsecs", (dropTime) / (numUpdateKindIterations));
MojTestErrCheck(err);
err = MojPrintF("\n\n");
MojTestErrCheck(err);
MojString buf;
err = buf.format("Updating kind %s - adding index %s %llu times,%s,%llu,%llu,%llu,\nUpdating kind %s - dropping index %s %llu times,%s,%llu,%llu,%llu,\n",
kindId, extraIdxJson, numUpdateKindIterations, kindId, addTime, addTime/numUpdateKindIterations, addTime/(1*numUpdateKindIterations),
kindId, extraIdxJson, numUpdateKindIterations, kindId, dropTime, dropTime/numUpdateKindIterations, dropTime/(1*numUpdateKindIterations));
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
return MojErrNone;
}
MojErr MojDbPerfUpdateTest::run()
{
MojErr err = file.open(UpdateTestFileName, MOJ_O_RDWR | MOJ_O_CREAT | MOJ_O_TRUNC, MOJ_S_IRUSR | MOJ_S_IWUSR);
MojTestErrCheck(err);
MojString buf;
err = buf.format("MojoDb Update Performance Test,,,,,\n\nOperation,Kind,Total Time,Time Per Iteration,Time Per Object\n");
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
MojDb db;
err = db.open(MojDbTestDir);
MojTestErrCheck(err);
err = testPut(db);
MojTestErrCheck(err);
err = testMerge(db);
MojTestErrCheck(err);
err = testUpdateKind(db);
MojTestErrCheck(err);
err = MojPrintF("\n\n TOTAL TEST TIME: %llu microseconds\n\n", totalTestTime.microsecs());
MojTestErrCheck(err);
err = MojPrintF("\n-------\n");
MojTestErrCheck(err);
err = buf.format("\n\nTOTAL TEST TIME,,%llu,,,", totalTestTime.microsecs());
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
err = db.close();
MojTestErrCheck(err);
err = file.close();
MojTestErrCheck(err);
return MojErrNone;
}
bool FileOut::done()
{
Q_ASSERT(!isDone);
if (name.isEmpty())
return false;
isDone = true;
bool fileEqual = false;
QFile fileRead(name);
QFileInfo info(fileRead);
stream.flush();
QByteArray original;
if (info.exists() && (diff || (info.size() == tmp.size()))) {
if (!fileRead.open(QIODevice::ReadOnly)) {
ReportHandler::warning(QString("failed to open file '%1' for reading")
.arg(fileRead.fileName()));
return false;
}
original = fileRead.readAll();
fileRead.close();
fileEqual = (original == tmp);
}
if (!fileEqual) {
if (!FileOut::dummy) {
QDir dir(info.absolutePath());
if (!dir.mkpath(dir.absolutePath())) {
ReportHandler::warning(QString("unable to create directory '%1'")
.arg(dir.absolutePath()));
return false;
}
QFile fileWrite(name);
if (!fileWrite.open(QIODevice::WriteOnly)) {
ReportHandler::warning(QString("failed to open file '%1' for writing")
.arg(fileWrite.fileName()));
return false;
}
QTextCodec::setCodecForCStrings(QTextCodec::codecForName("UTF-8"));
stream.setDevice(&fileWrite);
stream << tmp;
}
if (diff) {
std::printf("%sFile: %s%s\n", colorInfo, qPrintable(name), colorReset);
::diff(original.split('\n'), tmp.split('\n'));
std::printf("\n");
}
return true;
}
return false;
}
void Functionality::updateFile()
{
unsigned i;
ofstream fileWrite("EventStorage.txt");
fileWrite<<"High Priority Event(s) :-\n";
for(i = 0; i < highPriority.size(); i++)
fileWrite << eventConvert(highPriority[i]) << "\n";
fileWrite << "\n";
fileWrite << "Normal Priority Event(s) :-\n";
for(i = 0; i < normalPriority.size(); i++)
fileWrite << eventConvert(normalPriority[i]) << "\n";
fileWrite.close();
}
void writeConfig(bool isConfigOptions)
{
//If the configuration is different from previously, overwrite it.
if(needConfig != CREATE_CONFIGURATION && ((isConfigOptions && configData.config == oldConfig.config && configData.multiConfig == oldConfig.multiConfig) ||
(!isConfigOptions && configData.bootConfig == oldConfig.bootConfig))) return;
if(needConfig == CREATE_CONFIGURATION)
{
memcpy(configData.magic, "CONF", 4);
configData.formatVersionMajor = CONFIG_VERSIONMAJOR;
configData.formatVersionMinor = CONFIG_VERSIONMINOR;
needConfig = MODIFY_CONFIGURATION;
}
if(!fileWrite(&configData, CONFIG_FILE, sizeof(CfgData)))
error("Error writing the configuration file");
}
void Functionality::notificationFile()
{
int eventCount = 0;
ofstream fileWrite("ReminderStorage.txt");
unsigned i;
unsigned j;
vector<EventStorage> tempVector;
for(i=0;i<2;i++)
{
if(i==0)
tempVector=highPriority;
else
tempVector=normalPriority;
for(j=0;j<tempVector.size() && eventCount <10 ;j++)
{
if(tempVector[j].getDoneFlag()==0)
{
fileWrite<<eventCount+1<<". ";
if(tempVector[j].getTitle().size()!=0)
fileWrite<<"<"<<tempVector[j].getTitle()<<">"<<" ";
else
fileWrite<<"< > ";
if(tempVector[j].getDate()!="00-00-0000")
fileWrite<<"<"<<tempVector[j].getDate()<<">"<<" ";
else
fileWrite<<"< > ";
if(tempVector[j].getTime()!="25:00")
fileWrite<<"<"<<tempVector[j].getTime()<<">"<<" ";
else
fileWrite<<"< > ";
fileWrite<<"<"<<tempVector[j].getCode()<<">";
if(i==0)
fileWrite<<"\\12";
else
fileWrite<<"\\10";
fileWrite<<"\n";
eventCount++;
}
}
}
if(eventCount==0)
fileWrite<<"No Event has been created yet\\15";
fileWrite.close();
}
void keyboardSpecial(int key, int x, int y)
{
switch(key)
{
case GLUT_KEY_F1:
resetField();
printf("Field cleared!\n");
break;
case GLUT_KEY_F2:
fileWrite();
printf("Field saved!\n");
break;
case GLUT_KEY_F3:
fileRead();
printf("Field loaded!\n");
break;
}
}
void tests2(){
Huffman h;
Huffman_init(&h);
int size;
unsigned char *data = fileRead("LICENSE",&size);
Huffman_add_data_block(&h,data,size);
Huffman_apply(&h);
Huffman_compress_data_to_file(&h,"LICENSE.hff");
Huffman_free(&h);
Huffman_init(&h);
Huffman_file_decompress(&h,"LICENSE.hff");
fileWrite("Decompressed LICENSE.txt",h.uc_data[0],h.uc_sizes[0]);
}
int main(int argc, char **argv)
{
char *fout, *point;
seclist=calloc(1, sizeof(Section));
if(argc<2 || argc>3) usage();
if(argc==2){
fout=(char*)strdup(argv[1]);
point=strchr(fout, '.');
if(point == NULL) pexit("Couldn generate output filename - no . in input file\n", argv[1]);
strcpy(point, ".h");
}else
fout=argv[2];
if(!strcmp(fout, argv[1])){
printf("input and output files have the same name - exiting\n");
exit(1);
}
fileWrite(fileRead(argv[1]), fout);
return(0);
}
MojErr MojDbPerfCreateTest::testBatchInsertLgArrayObj(MojDb& db, const MojChar* kindId)
{
// register all the kinds again
MojTime time;
MojErr err = putKinds(db, time);
MojTestErrCheck(err);
// time put with large array objects (20 properties + 2 arrays of 5 elements each)
MojTime batchLgArrayObjTime = 0;
for (int i = 0; i < numRepetitions; i++) {
err = putLargeArrayObj(db, kindId, batchLgArrayObjTime);
MojTestErrCheck(err);
MojDbQuery q;
err = q.from(kindId);
MojTestErrCheck(err);
MojUInt32 count = 0;
err = db.del(q, count);
MojTestErrCheck(err);
}
MojUInt64 putTime = batchLgArrayObjTime.microsecs();
err = MojPrintF("\n -------------------- \n");
MojTestErrCheck(err);
err = MojPrintF(" time to batch put %llu %s objects %d times: %llu microsecs\n", numInsert, kindId, numRepetitions, putTime);
MojTestErrCheck(err);
err = MojPrintF(" time per batch: %llu microsecs", (putTime) / (numRepetitions));
MojTestErrCheck(err);
err = MojPrintF(" time per object: %llu microsecs", (putTime) / (numInsert * numRepetitions));
MojTestErrCheck(err);
err = MojPrintF("\n\n");
MojTestErrCheck(err);
MojString buf;
err = buf.format("batch put %llu objects %d times,%s,%llu,%llu,%llu,\n", numInsert, numRepetitions, kindId, putTime, putTime/numRepetitions, putTime / (numInsert * numRepetitions));
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
return MojErrNone;
}
MojErr MojDbPerfCreateTest::testInsertMedArrayObj(MojDb& db, const MojChar* kindId)
{
// register all the kinds again
MojTime time;
MojErr err = putKinds(db, time);
MojTestErrCheck(err);
// time put with med array objects (10 properties + 1 array of 5 elements)
MojTime medArrayObjTime;
for (int i = 0; i < numRepetitions; i++) {
err = putMedArrayObj(db, kindId, medArrayObjTime);
MojTestErrCheck(err);
MojDbQuery q;
err = q.from(kindId);
MojTestErrCheck(err);
MojUInt32 count = 0;
err = db.del(q, count, MojDb::FlagPurge);
MojTestErrCheck(err);
}
MojUInt64 putTime = medArrayObjTime.microsecs();
err = MojPrintF("\n -------------------- \n");
MojTestErrCheck(err);
err = MojPrintF(" time to put %llu %s objects %d times: %llu microsecs\n", numInsert, kindId, numRepetitions, putTime);
MojTestErrCheck(err);
err = MojPrintF(" time per object: %llu microsecs", (putTime) / (numInsert * numRepetitions));
MojTestErrCheck(err);
err = MojPrintF("\n\n");
MojTestErrCheck(err);
MojString buf;
err = buf.format("put %llu objects %d times,%s,%llu,%llu,%llu,\n", numInsert, numRepetitions, kindId, putTime, putTime/numRepetitions, putTime / (numInsert * numRepetitions));
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
return MojErrNone;
}
void error(const char *fmt, ...)
{
char buf[DRAW_MAX_FORMATTED_STRING_SIZE + 1];
va_list args;
va_start(args, fmt);
vsprintf(buf, fmt, args);
va_end(args);
if(!isFirmlaunch)
{
initScreens();
drawString(true, 10, 10, COLOR_RED, "An error has occurred:");
u32 posY = drawString(true, 10, 30, COLOR_WHITE, buf);
drawString(true, 10, posY + 2 * SPACING_Y, COLOR_WHITE, "Press any button to shutdown");
waitInput(false);
}
else fileWrite(buf, "firmlauncherror.txt", strlen(buf));
mcuPowerOff();
}
int
_rsFileWrite (rsComm_t *rsComm, fileWriteInp_t *fileWriteInp,
bytesBuf_t *fileWriteInpBBuf)
{
int retVal;
/* XXXX need to check resource permission and vault permission
* when RCAT is available
*/
retVal = fileWrite (FileDesc[fileWriteInp->fileInx].fileType, rsComm,
FileDesc[fileWriteInp->fileInx].fd, fileWriteInpBBuf->buf,
fileWriteInp->len);
if (retVal < 0) {
rodsLog (LOG_NOTICE,
"_rsFileWrite: fileWrite for %s, status = %d",
FileDesc[fileWriteInp->fileInx].fileName, retVal);
return (retVal);
}
return (retVal);
}
MojErr MojDbPerfCreateTest::testInsertLgNestedObj(MojDb& db, const MojChar* kindId)
{
// register all the kinds again
MojUInt64 time = 0;
MojErr err = putKinds(db, time);
MojTestErrCheck(err);
// time put with large nested objects (3 levels of nesting, 20 properties)
MojUInt64 largeNestedObjTime = 0;
for (int i = 0; i < numRepetitions; i++) {
err = putLargeNestedObj(db, kindId, largeNestedObjTime);
MojTestErrCheck(err);
MojDbQuery q;
err = q.from(kindId);
MojTestErrCheck(err);
MojUInt32 count = 0;
err = db.del(q, count, MojDb::FlagPurge);
MojTestErrCheck(err);
}
err = MojPrintF("\n -------------------- \n");
MojTestErrCheck(err);
err = MojPrintF(" time to put %llu %s nested objects %d times: %llu nanosecs\n", numInsert, kindId, numRepetitions, largeNestedObjTime);
MojTestErrCheck(err);
err = MojPrintF(" time per object: %llu nanosecs", (largeNestedObjTime) / (numInsert * numRepetitions));
MojTestErrCheck(err);
err = MojPrintF("\n\n");
MojTestErrCheck(err);
MojString buf;
err = buf.format("put %llu objects %d times,%s,%llu,%llu,%llu,\n", numInsert, numRepetitions, kindId, largeNestedObjTime, largeNestedObjTime/numRepetitions, largeNestedObjTime / (numInsert * numRepetitions));
MojTestErrCheck(err);
err = fileWrite(file, buf);
MojTestErrCheck(err);
return MojErrNone;
}
// function that writes current data
int File::fileWrite()
{
fileWrite(m_fN, m_fD);
return 0;
}
// protected function to initiate G appendix data from A NEEDS BREAKING DOWN INTO SUB FUNC
int File::initFile()
{
// going through all known files getting relevant data
// this could have been multithreaded
// setting array with file paths I dont want to put it here,
// but for the sake of not making things any more convoluted
// I know its horrible to do it like this but its temporary.
char* relativeFile[] = {
"..\\..\\..\\ProgramResources\\G Appendix\\G A-Z.txt", // first is destination
"..\\..\\..\\ProgramResources\\A Appendix\\A-B.txt", // A-B
"..\\..\\..\\ProgramResources\\A Appendix\\C.txt", // C
"..\\..\\..\\ProgramResources\\A Appendix\\D-F.txt", // D-F
"..\\..\\..\\ProgramResources\\A Appendix\\G-K.txt", // G-K
"..\\..\\..\\ProgramResources\\A Appendix\\L-O.txt", // L-O
"..\\..\\..\\ProgramResources\\A Appendix\\P-R.txt", // P-R
"..\\..\\..\\ProgramResources\\A Appendix\\S.txt", // S
"..\\..\\..\\ProgramResources\\A Appendix\\T-Z.txt" // T-Z
};
// creating temporary list
std::vector<std::vector<std::string> > list;
// for loop that cycles through relativeFile[] by calculating size
for (int i = 1; i < sizeof(relativeFile)/sizeof(relativeFile[0]); i++)
{
// for each file path:
std::cout << "init, " << relativeFile[i] << ", now." << std::endl;
// set file name to
m_fN = relativeFile[i];
// read file
fileRead();
// creating intermediate containers
std::string lastWord = "";
std::vector<std::string> wordList;
std::vector<std::string> numberList;
// for each cue:
for (int c = 0; c < m_fD.size(); c++)
{
//std::cout << (m_fD[c][0])[0] << std::endl;
if ((m_fD[c][0])[0] != '<')
{
// if this item exists already
// by checking the last item
if (m_fD[c][0] == lastWord)
{
//std::cout << m_fD[c][1] << std::endl;
wordList.push_back(m_fD[c][1]);
numberList.push_back(m_fD[c][4]);
}
else // only happens if a different word so start of a new sequence
{
// check to see if previous sequence is not empty
if (wordList.size() > 0 && numberList.size() > 0)
{
// publish last sequence now that we know its finished
// and checking to get rid of CUE line
if (wordList[0] != "CUE")
{
list.push_back(wordList);
list.push_back(numberList);
}
// clear last sequence
wordList.clear();
numberList.clear();
}
// start new sequence
lastWord = m_fD[c][0];
std::cout << lastWord << std::endl;
// add current position data into new sequence
wordList.push_back(lastWord);
wordList.push_back(m_fD[c][1]);
numberList.push_back(m_fD[c][3]);
numberList.push_back(m_fD[c][4]);
}
}
}
// check to see if last sequence is not empty
if (wordList.size() > 0 && numberList.size() > 0)
{
// publish last sequence now that we know its finished
list.push_back(wordList);
list.push_back(numberList);
// clear last sequence
wordList.clear();
numberList.clear();
}
}
// m_fN = destination
m_fN = relativeFile[0];
// m_fD = list
// not gonna do it because its inefficent since its non pointer
// file write
fileWrite(m_fN, list);
return 0;
}
// =-=-=-=-=-=-=-
// local implementation of put
int _rsFilePut(
rsComm_t* _comm,
fileOpenInp_t* _put_inp,
bytesBuf_t* _put_bbuf,
rodsServerHost_t* _server_host ) {
int fd = 0;
// =-=-=-=-=-=-=-
// NOTE:: this test does not seem to work for i86 solaris
if ( ( _put_inp->otherFlags & FORCE_FLAG ) != 0 ) {
// =-=-=-=-=-=-=-
// create one if it does not exist */
_put_inp->flags |= O_CREAT;
fd = _rsFileOpen( _comm, _put_inp );
}
else {
fd = _rsFileCreate( _comm, _put_inp, _server_host );
} // else
// =-=-=-=-=-=-=-
// log, error if any
if ( fd < 0 ) {
if ( getErrno( fd ) == EEXIST ) {
rodsLog( LOG_DEBUG1,
"_rsFilePut: filePut for %s, status = %d",
_put_inp->fileName, fd );
}
else if ( fd != DIRECT_ARCHIVE_ACCESS ) {
rodsLog( LOG_DEBUG,
"_rsFilePut: filePut for %s, status = %d",
_put_inp->fileName, fd );
}
return ( fd );
}
// =-=-=-=-=-=-=-
// call write for resource plugin
irods::file_object_ptr file_obj(
new irods::file_object(
_comm,
_put_inp->objPath,
_put_inp->fileName,
_put_inp->resc_hier_,
fd, 0, 0 ) );
file_obj->in_pdmo( _put_inp->in_pdmo );
file_obj->cond_input( _put_inp->condInput );
irods::error write_err = fileWrite( _comm,
file_obj,
_put_bbuf->buf,
_put_bbuf->len );
int write_code = write_err.code();
// =-=-=-=-=-=-=-
// log errors, if any
if ( write_code != _put_bbuf->len ) {
if ( write_code >= 0 ) {
std::stringstream msg;
msg << "fileWrite failed for [";
msg << _put_inp->fileName;
msg << "] towrite [";
msg << _put_bbuf->len;
msg << "] written [";
msg << write_code << "]";
irods::error err = PASSMSG( msg.str(), write_err );
irods::log( err );
write_code = SYS_COPY_LEN_ERR;
}
else {
std::stringstream msg;
msg << "fileWrite failed for [";
msg << _put_inp->fileName;
msg << "]";
irods::error err = PASSMSG( msg.str(), write_err );
irods::log( err );
}
}
// =-=-=-=-=-=-=-
// close up after ourselves
irods::error close_err = fileClose( _comm,
file_obj );
if ( !close_err.ok() ) {
irods::error err = PASSMSG( "error on close", close_err );
irods::log( err );
}
// =-=-=-=-=-=-=-
// return 'write_err code' as this includes this implementation
// assumes we are returning the size of the file 'put' via fileWrite
return write_code;
} // _rsFilePut
bool CMake::writeProject(const String& targetName, Project& project)
{
Directory::create(String(".CMake/") + targetName);
fileOpen(String(".CMake/") + targetName + "/CMakeLists.txt");
fileWrite("cmake_policy(SET CMP0015 NEW)\n\n");
for(const Map<String, ProjectConfiguration>::Node* i = project.configurations.getFirst(); i; i = i->getNext())
{
const String& configName = i->key;
const ProjectConfiguration& config = i->data;
const Target& target = *config.target;
if(i == project.configurations.getFirst())
fileWrite(String("if(CMAKE_BUILD_TYPE STREQUAL \"") + configName +"\")\n");
else
fileWrite(String("elseif(CMAKE_BUILD_TYPE STREQUAL \"") + configName +"\")\n");
if(!target.includePaths.isEmpty())
fileWrite(String("include_directories(") + joinPaths(target.includePaths) + ")\n");
if(!target.libPaths.isEmpty())
fileWrite(String("link_directories(") + joinPaths(target.libPaths) + ")\n");
List<String> customBuildOutput;
for(const List<const File*>::Node* i = config.customBuildFiles.getFirst(); i; i = i->getNext())
{
const File& file = *i->data;
fileWrite("add_custom_command(\n");
fileWrite(String(" OUTPUT ") + joinPaths(file.output, true) + "\n");
Map<String, void*> outputDirs;
for(const List<String>::Node* i = file.output.getFirst(); i; i = i->getNext())
{
String dir = ::File::getDirname(i->data);
if(dir != "." && !outputDirs.find(dir))
outputDirs.append(dir);
}
for(Map<String, void*>::Node* i = outputDirs.getFirst(); i; i = i->getNext())
fileWrite(String(" COMMAND ${CMAKE_COMMAND} -E make_directory ") + translatePath(i->key, true) + "\n");
for(const List<String>::Node* i = file.command.getFirst(); i; i = i->getNext())
fileWrite(String(" COMMAND ") + i->data + "\n");
fileWrite(String(" DEPENDS ") + joinPaths(file.input) + "\n");
fileWrite(" WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/../..\n");
if(!file.message.isEmpty())
fileWrite(String(" COMMENT \"") + file.message.getFirst()->data + "\"\n");
fileWrite(" )\n");
for(const List<String>::Node* i = file.output.getFirst(); i; i = i->getNext())
customBuildOutput.append(i->data);
}
if(config.type == ProjectConfiguration::applicationType)
fileWrite(String("add_executable(") + targetName + " " + joinPaths(config.sourceFiles) + " " + joinPaths(customBuildOutput, true) + ")\n");
else if(config.type == ProjectConfiguration::dynamicLibraryType)
fileWrite(String("add_library(") + targetName + " SHARED " + joinPaths(config.sourceFiles) + " " + joinPaths(customBuildOutput, true) + ")\n");
else if(config.type == ProjectConfiguration::staticLibraryType)
fileWrite(String("add_library(") + targetName + " STATIC " + joinPaths(config.sourceFiles) + " " + joinPaths(customBuildOutput, true) + ")\n");
else if(config.type == ProjectConfiguration::customTargetType)
{
if(!target.output.isEmpty() && !target.command.isEmpty())
{
fileWrite("add_custom_command(\n");
fileWrite(String(" OUTPUT ") + joinPaths(target.output, true) + "\n");
Map<String, void*> outputDirs;
for(const List<String>::Node* i = target.output.getFirst(); i; i = i->getNext())
{
String dir = ::File::getDirname(i->data);
if(dir != "." && !outputDirs.find(dir))
outputDirs.append(dir);
customBuildOutput.append(i->data);
}
for(Map<String, void*>::Node* i = outputDirs.getFirst(); i; i = i->getNext())
fileWrite(String(" COMMAND ${CMAKE_COMMAND} -E make_directory ") + translatePath(i->key, true) + "\n");
for(const List<String>::Node* i = target.command.getFirst(); i; i = i->getNext())
fileWrite(String(" COMMAND ") + i->data + "\n");
fileWrite(String(" DEPENDS ") + joinPaths(target.input) + "\n");
fileWrite(" WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/../..\n");
if(!target.message.isEmpty())
fileWrite(String(" COMMENT \"") + target.message.getFirst()->data + "\"\n");
fileWrite(" )\n");
}
fileWrite(String("add_custom_target(") + targetName + " ALL\n");
fileWrite(String(" DEPENDS ") + joinPaths(customBuildOutput, true) + "\n");
fileWrite(String(" SOURCES ") + joinPaths(config.sourceFiles) + "\n");
fileWrite(" )\n");
}
/*
if(!config.libs.isEmpty())
{
List<String> libs;
for(const List<Library>::Node* i = config.libs.getFirst(); i; i = i->getNext())
{
const Library& lib = i->data;
if(lib.type == Library::localType)
libs.append(lib.name);
else
{
fileWrite(String("find_library(") + lib.name + "_LIBRARY " + lib.name + " PATHS " + join(target.libPaths) + ")\n");
libs.append(String("${") + lib.name + "_LIBRARY}");
}
}
fileWrite(String("target_link_libraries(") + targetName + " " + join(libs) + ")\n");
}
*/
if(!config.libs.isEmpty())
{
List<String> libs;
for(const List<Library>::Node* i = config.libs.getFirst(); i; i = i->getNext())
libs.append(i->data.name);
fileWrite(String("target_link_libraries(") + targetName + " " + join(libs) + ")\n");
}
if(!target.cppCompiler.isEmpty())
{
String cppCompiler;
for(const List<String>::Node* i = target.cppCompiler.getFirst(); i; i = i->getNext())
{
const String& word = i->data;
size_t sep;
if(word.find('=', sep))
fileWrite(String("set(ENV{") + word.substr(0, sep) + "} \"" + word.substr(sep + 1) + "\")\n");
else
{
cppCompiler = word;
break;
}
}
if(!cppCompiler.isEmpty())
{
if(!::File::isPathAbsolute(cppCompiler) && ::File::exists(cppCompiler))
fileWrite(String("set(CMAKE_CXX_COMPILER \"${CMAKE_CURRENT_SOURCE_DIR}/../../") + cppCompiler + "\")\n");
else
fileWrite(String("set(CMAKE_CXX_COMPILER \"") + cppCompiler + "\")\n");
}
}
if(!target.cCompiler.isEmpty())
{
String cCompiler;
for(const List<String>::Node* i = target.cCompiler.getFirst(); i; i = i->getNext())
{
const String& word = i->data;
size_t sep;
if(word.find('=', sep))
fileWrite(String("set(ENV{") + word.substr(0, sep) + "} \"" + word.substr(sep + 1) + "\")\n");
else
{
cCompiler = word;
break;
}
}
if(!cCompiler.isEmpty())
{
if(!::File::isPathAbsolute(cCompiler) && ::File::exists(cCompiler))
fileWrite(String("set(CMAKE_C_COMPILER \"${CMAKE_CURRENT_SOURCE_DIR}/../../") + cCompiler + "\")\n");
else
fileWrite(String("set(CMAKE_C_COMPILER \"") + cCompiler + "\")\n");
}
}
/*
if(!target.cppFlags.isEmpty())
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY COMPILE_FLAGS \"" + join(target.cppFlags) + "\")\n");
*/
if(!target.cppFlags.isEmpty())
fileWrite(String("set(CMAKE_CXX_FLAGS \"") + join(target.cppFlags) + "\")\n");
if(!target.cFlags.isEmpty())
fileWrite(String("set(CMAKE_C_FLAGS \"") + join(target.cFlags) + "\")\n");
if(!target.output.isEmpty())
{
String outputDirectory = ::File::getDirname(target.output.getFirst()->data);
// Hi cmake devs! I do not know whats considered to be an ARCHIVE, LIBRARY or RUNTIME. So I will set all properties to be sure.
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY ARCHIVE_OUTPUT_DIRECTORY \"" + translatePath(outputDirectory) + "\")\n");
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY LIBRARY_OUTPUT_DIRECTORY \"" + translatePath(outputDirectory) + "\")\n");
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY RUNTIME_OUTPUT_DIRECTORY \"" + translatePath(outputDirectory) + "\")\n");
String outputName = ::File::getWithoutExtension(::File::getBasename(target.output.getFirst()->data));
outputName.patsubst("lib%", "%");
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY OUTPUT_NAME \"" + outputName + "\")\n");
}
if(!target.linkFlags.isEmpty())
{
if(config.type == ProjectConfiguration::staticLibraryType)
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY STATIC_LIBRARY_FLAGS " + join(target.linkFlags) + ")\n");
else
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY LINK_FLAGS \"" + join(target.linkFlags) + "\")\n");
}
if(!target.defines.isEmpty())
fileWrite(String("set_property(TARGET ") + targetName + " PROPERTY COMPILE_DEFINITIONS " + join(target.defines) + ")\n");
if(!target.dependencies.isEmpty())
fileWrite(String("add_dependencies(") + targetName + " " + join(target.dependencies) + ")\n");
}
fileWrite("endif()\n");
fileClose();
return true;
}
