void StatisticsCollector::Print(int dataOutput, const char *ModeName)
{
FILE *OutputFile;
const char *file_suffix = getenv("STAT_SUFFIX");
if( !file_suffix ) file_suffix = "";
const char *file_format = getenv("STAT_FORMAT");
if( file_format ) {
dataOutput = 0;
if( strstr(file_format, "con")||strstr(file_format, "std") ) dataOutput |= StatisticsCollector::Stdout;
if( strstr(file_format, "txt")||strstr(file_format, "csv") ) dataOutput |= StatisticsCollector::TextFile;
if( strstr(file_format, "excel")||strstr(file_format, "xml") ) dataOutput |= StatisticsCollector::ExcelXML;
if( strstr(file_format, "htm") ) dataOutput |= StatisticsCollector::HTMLFile;
if( strstr(file_format, "pivot") ) dataOutput |= StatisticsCollector::PivotMode;
}
for(int i = 1; i < 10; i++) {
string env = Format("STAT_RUNINFO%d", i);
const char *info = getenv(env.c_str());
if( info ) {
string title(info);
size_t pos = title.find('=');
if( pos != string::npos ) {
env = title.substr(pos+1);
title.resize(pos);
} else env = title;
RunInfo.push_back(make_pair(title, env));
}
}
if (dataOutput & StatisticsCollector::Stdout)
{
printf("\n-=# %s #=-\n", Title.c_str());
if(SortMode == ByThreads)
printf(" Name | # | %s ", ModeName);
else
printf(" Name | %s | # ", ModeName);
for (AnalysisTitles_t::iterator i = AnalysisTitles.begin(); i != AnalysisTitles.end(); i++)
printf("|%s", i->c_str()+1);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
if(SortMode == ByThreads)
printf("\n%12s|% 5d|%6s", i->second->Name.c_str(), i->second->Threads, i->second->Mode.c_str());
else
printf("\n%12s|%6s|% 5d", i->second->Name.c_str(), i->second->Mode.c_str(), i->second->Threads);
Analysis_t &analisis = i->second->Analysis;
AnalysisTitles_t::iterator t = AnalysisTitles.begin();
for (Analysis_t::iterator a = analisis.begin(); a != analisis.end(); t++)
{
char fmt[8]; snprintf(fmt, 7, "|%% %us", unsigned(max(size_t(3), t->size())));
if(*t != a->first)
printf(fmt, "");
else {
printf(fmt, a->second.c_str()); a++;
}
}
}
printf("\n");
}
if (dataOutput & StatisticsCollector::TextFile)
{
bool append = false;
const char *file_ext = ".txt";
if( file_format && strstr(file_format, "++") ) append = true;
if( file_format && strstr(file_format, "csv") ) file_ext = ".csv";
if ((OutputFile = fopen((Name+file_suffix+file_ext).c_str(), append?"at":"wt")) == NULL) {
printf("Can't open .txt file\n");
} else {
const char *delim = getenv("STAT_DELIMITER");
if( !delim || !delim[0] ) {
if( file_format && strstr(file_format, "csv") ) delim = ",";
else delim = "\t";
}
if( !append || !ftell(OutputFile) ) { // header needed
append = false;
if(SortMode == ByThreads) fprintf(OutputFile, "Name%s#%s%s", delim, delim, ModeName);
else fprintf(OutputFile, "Name%s%s%s#", delim, ModeName, delim);
for( size_t k = 0; k < RunInfo.size(); k++ )
fprintf(OutputFile, "%s%s", delim, RunInfo[k].first.c_str());
}
if(dataOutput & StatisticsCollector::PivotMode) {
if( !append) fprintf(OutputFile, "%sColumn%sValue", delim, delim);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
string RowHead;
if(SortMode == ByThreads)
RowHead = Format("\n%s%s%d%s%s%s", i->second->Name.c_str(), delim, i->second->Threads, delim, i->second->Mode.c_str(), delim);
else
RowHead = Format("\n%s%s%s%s%d%s", i->second->Name.c_str(), delim, i->second->Mode.c_str(), delim, i->second->Threads, delim);
for( size_t k = 0; k < RunInfo.size(); k++ )
RowHead.append(RunInfo[k].second + delim);
Analysis_t &analisis = i->second->Analysis;
for (Analysis_t::iterator a = analisis.begin(); a != analisis.end(); ++a)
fprintf(OutputFile, "%s%s%s%s", RowHead.c_str(), a->first.c_str(), delim, a->second.c_str());
Results_t &r = i->second->Results;
for (size_t k = 0; k < r.size(); k++) {
fprintf(OutputFile, "%s%s%s", RowHead.c_str(), RoundTitles[k].c_str(), delim);
fprintf(OutputFile, ResultsFmt, r[k]);
}
}
} else {
if( !append ) {
for( size_t k = 0; k < RunInfo.size(); k++ )
fprintf(OutputFile, "%s%s", delim, RunInfo[k].first.c_str());
for (AnalysisTitles_t::iterator i = AnalysisTitles.begin(); i != AnalysisTitles.end(); i++)
fprintf(OutputFile, "%s%s", delim, i->c_str()+1);
for (size_t i = 0; i < RoundTitles.size(); i++)
fprintf(OutputFile, "%s%s", delim, RoundTitles[i].c_str());
}
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
if(SortMode == ByThreads)
fprintf(OutputFile, "\n%s%s%d%s%s", i->second->Name.c_str(), delim, i->second->Threads, delim, i->second->Mode.c_str());
else
fprintf(OutputFile, "\n%s%s%s%s%d", i->second->Name.c_str(), delim, i->second->Mode.c_str(), delim, i->second->Threads);
for( size_t k = 0; k < RunInfo.size(); k++ )
fprintf(OutputFile, "%s%s", delim, RunInfo[k].second.c_str());
Analysis_t &analisis = i->second->Analysis;
AnalysisTitles_t::iterator t = AnalysisTitles.begin();
for (Analysis_t::iterator a = analisis.begin(); a != analisis.end(); ++t) {
fprintf(OutputFile, "%s", delim);
if(*t == a->first) {
fprintf(OutputFile, "%s", a->second.c_str()); ++a;
}
}
//data
Results_t &r = i->second->Results;
for (size_t k = 0; k < r.size(); k++)
{
fprintf(OutputFile, "%s", delim);
fprintf(OutputFile, ResultsFmt, r[k]);
}
}
}
fprintf(OutputFile, "\n");
fclose(OutputFile);
}
}
if (dataOutput & StatisticsCollector::HTMLFile)
{
if ((OutputFile = fopen((Name+file_suffix+".html").c_str(), "w+t")) == NULL) {
printf("Can't open .html file\n");
} else {
char TimerBuff[100], DateBuff[100];
GetTime(TimerBuff,sizeof(TimerBuff));
GetDate(DateBuff,sizeof(DateBuff));
fprintf(OutputFile, "<html><head>\n<title>%s</title>\n</head><body>\n", Title.c_str());
//-----------------------
fprintf(OutputFile, "<table id=\"h\" style=\"position:absolute;top:20\" border=1 cellspacing=0 cellpadding=2>\n");
fprintf(OutputFile, "<tr><td><a name=hr href=#vr onclick=\"v.style.visibility='visible';"
"h.style.visibility='hidden';\">Flip[H]</a></td>"
"<td>%s</td><td>%s</td><td colspan=%u>%s",
DateBuff, TimerBuff, unsigned(AnalysisTitles.size() + RoundTitles.size()), Title.c_str());
for( size_t k = 0; k < RunInfo.size(); k++ )
fprintf(OutputFile, "; %s: %s", RunInfo[k].first.c_str(), RunInfo[k].second.c_str());
fprintf(OutputFile, "</td></tr>\n<tr bgcolor=#CCFFFF><td>Name</td><td>Threads</td><td>%s</td>", ModeName);
for (AnalysisTitles_t::iterator i = AnalysisTitles.begin(); i != AnalysisTitles.end(); i++)
fprintf(OutputFile, "<td>%s</td>", i->c_str()+1);
for (size_t i = 0; i < RoundTitles.size(); i++)
fprintf(OutputFile, "<td>%s</td>", RoundTitles[i].c_str());
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
fprintf(OutputFile, "</tr>\n<tr><td bgcolor=#CCFFCC>%s</td><td bgcolor=#CCFFCC>%d</td><td bgcolor=#CCFFCC>%4s</td>",
i->second->Name.c_str(), i->second->Threads, i->second->Mode.c_str());
//statistics
AnalysisTitles_t::iterator t = AnalysisTitles.begin();
for (Analysis_t::iterator j = i->second->Analysis.begin(); j != i->second->Analysis.end(); t++)
{
fprintf(OutputFile, "<td bgcolor=#FFFF99>%s</td>", (*t != j->first)?" ":(i->second->Analysis[j->first]).c_str());
if(*t == j->first) j++;
}
//data
Results_t &r = i->second->Results;
for (size_t k = 0; k < r.size(); k++)
{
fprintf(OutputFile, "<td>");
fprintf(OutputFile, ResultsFmt, r[k]);
fprintf(OutputFile, "</td>");
}
}
fprintf(OutputFile, "</tr>\n</table>\n");
//////////////////////////////////////////////////////
fprintf(OutputFile, "<table id=\"v\" style=\"visibility:hidden;position:absolute;top:20\" border=1 cellspacing=0 cellpadding=2>\n");
fprintf(OutputFile, "<tr><td><a name=vr href=#hr onclick=\"h.style.visibility='visible';"
"v.style.visibility='hidden';\">Flip[V]</a></td>\n"
"<td>%s</td><td>%s</td><td colspan=%u>%s</td>",
DateBuff, TimerBuff, unsigned(max(Statistics.size()-2,size_t(1))), Title.c_str());
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFCC><td bgcolor=#CCFFFF>Name</td>");
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, "<td>%s</td>", i->second->Name.c_str());
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFCC><td bgcolor=#CCFFFF>Threads</td>");
for (Statistics_t::iterator n = Statistics.begin(); n != Statistics.end(); n++)
fprintf(OutputFile, "<td>%d</td>", n->second->Threads);
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFCC><td bgcolor=#CCFFFF>%s</td>", ModeName);
for (Statistics_t::iterator m = Statistics.begin(); m != Statistics.end(); m++)
fprintf(OutputFile, "<td>%s</td>", m->second->Mode.c_str());
for (AnalysisTitles_t::iterator t = AnalysisTitles.begin(); t != AnalysisTitles.end(); t++)
{
fprintf(OutputFile, "</tr>\n<tr bgcolor=#FFFF99><td bgcolor=#CCFFFF>%s</td>", t->c_str()+1);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, "<td>%s</td>", i->second->Analysis.count(*t)?i->second->Analysis[*t].c_str():" ");
}
for (size_t r = 0; r < RoundTitles.size(); r++)
{
fprintf(OutputFile, "</tr>\n<tr><td bgcolor=#CCFFFF>%s</td>", RoundTitles[r].c_str());
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
Results_t &result = i->second->Results;
fprintf(OutputFile, "<td>");
if(result.size() > r)
fprintf(OutputFile, ResultsFmt, result[r]);
fprintf(OutputFile, "</td>");
}
}
fprintf(OutputFile, "</tr>\n</table>\n</body></html>\n");
fclose(OutputFile);
}
}
if (dataOutput & StatisticsCollector::ExcelXML)
{
if ((OutputFile = fopen((Name+file_suffix+".xml").c_str(), "w+t")) == NULL) {
printf("Can't open .xml file\n");
} else {
// TODO:PivotMode
char UserName[100];
char TimerBuff[100], DateBuff[100];
#if _WIN32 || _WIN64
strcpy(UserName,getenv("USERNAME"));
#else
strcpy(UserName,getenv("USER"));
#endif
//--------------------------------
GetTime(TimerBuff,sizeof(TimerBuff));
GetDate(DateBuff,sizeof(DateBuff));
//--------------------------
fprintf(OutputFile, XMLHead, UserName, TimerBuff);
fprintf(OutputFile, XMLStyles);
fprintf(OutputFile, XMLBeginSheet, "Horizontal");
fprintf(OutputFile, XMLNames,1,1,1,int(AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS));
fprintf(OutputFile, XMLBeginTable, int(RoundTitles.size()+Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+1/*title*/), int(Statistics.size()+1));
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellTopName);
fprintf(OutputFile, XMLCellTopThread);
fprintf(OutputFile, XMLCellTopMode, ModeName);
for (AnalysisTitles_t::iterator j = AnalysisTitles.begin(); j != AnalysisTitles.end(); j++)
fprintf(OutputFile, XMLAnalysisTitle, j->c_str()+1);
for (Formulas_t::iterator j = Formulas.begin(); j != Formulas.end(); j++)
fprintf(OutputFile, XMLAnalysisTitle, j->first.c_str()+1);
for (RoundTitles_t::iterator j = RoundTitles.begin(); j != RoundTitles.end(); j++)
fprintf(OutputFile, XMLAnalysisTitle, j->c_str());
string Info = Title;
for( size_t k = 0; k < RunInfo.size(); k++ )
Info.append("; " + RunInfo[k].first + "=" + RunInfo[k].second);
fprintf(OutputFile, XMLCellEmptyWhite, Info.c_str());
fprintf(OutputFile, XMLERow);
//------------------------
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellName, i->second->Name.c_str());
fprintf(OutputFile, XMLCellThread,i->second->Threads);
fprintf(OutputFile, XMLCellMode, i->second->Mode.c_str());
//statistics
AnalysisTitles_t::iterator at = AnalysisTitles.begin();
for (Analysis_t::iterator j = i->second->Analysis.begin(); j != i->second->Analysis.end(); at++)
{
fprintf(OutputFile, XMLCellAnalysis, (*at != j->first)?"":(i->second->Analysis[j->first]).c_str());
if(*at == j->first) j++;
}
//formulas
size_t place = 0;
Results_t &v = i->second->Results;
for (Formulas_t::iterator f = Formulas.begin(); f != Formulas.end(); f++, place++)
fprintf(OutputFile, XMLCellFormula, ExcelFormula(f->second, Formulas.size()-place, v.size(), true).c_str());
//data
for (size_t k = 0; k < v.size(); k++)
{
fprintf(OutputFile, XMLCellData, v[k]);
}
if(v.size() < RoundTitles.size())
fprintf(OutputFile, XMLMergeRow, int(RoundTitles.size() - v.size()));
fprintf(OutputFile, XMLERow);
}
//------------------------
fprintf(OutputFile, XMLEndTable);
fprintf(OutputFile, XMLWorkSheetProperties,1,1,3,3,int(RoundTitles.size()+AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS));
fprintf(OutputFile, XMLAutoFilter,1,1,1,int(AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS));
fprintf(OutputFile, XMLEndWorkSheet);
//----------------------------------------
fprintf(OutputFile, XMLEndWorkbook);
fclose(OutputFile);
}
}
}
void StatisticsCollector::Print(int dataOutput, const char *ModeName)
{
FILE *OutputFile;
if (dataOutput & StatisticsCollector::Stdout)
{
printf("\n-=# %s #=-\n", Title.c_str());
if(SortMode == ByThreads)
printf(" Name | # | %s ", ModeName);
else
printf(" Name | %s | # ", ModeName);
for (AnalysisTitles_t::iterator i = AnalysisTitles.begin(); i != AnalysisTitles.end(); i++)
printf("|%s", i->c_str()+1);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
if(SortMode == ByThreads)
printf("\n%12s|% 5d|%6s", i->second->Name.c_str(), i->second->Threads, i->second->Mode.c_str());
else
printf("\n%12s|%6s|% 5d", i->second->Name.c_str(), i->second->Mode.c_str(), i->second->Threads);
Analysis_t &analisis = i->second->Analysis;
AnalysisTitles_t::iterator t = AnalysisTitles.begin();
for (Analysis_t::iterator a = analisis.begin(); a != analisis.end(); t++)
{
char fmt[8];
snprintf(fmt, 7, "|%% %us", unsigned(max(size_t(3), t->size())));
if(*t != a->first)
printf(fmt, "");
else {
printf(fmt, a->second.c_str());
a++;
}
}
}
printf("\n");
}
if (dataOutput & StatisticsCollector::HTMLFile)
{
if ((OutputFile = fopen((Name+".html").c_str(), "w+t")) != NULL)
{
char TimerBuff[100], DateBuff[100];
GetTime(TimerBuff,sizeof(TimerBuff));
GetDate(DateBuff,sizeof(DateBuff));
fprintf(OutputFile, "<html><head>\n<title>%s</title>\n</head><body>\n", Title.c_str());
//-----------------------
fprintf(OutputFile, "<table id=\"h\" style=\"position:absolute;top:20\" border=1 cellspacing=0 cellpadding=2>\n");
fprintf(OutputFile, "<tr><td><a name=hr href=#vr onclick=\"v.style.visibility='visible';"
"h.style.visibility='hidden';\">Flip[H]</a></td>"
"<td>%s</td><td>%s</td><td colspan=%u>%s</td>",
DateBuff, TimerBuff, unsigned(AnalysisTitles.size() + RoundTitles.size()), Title.c_str());
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFFF><td>Name</td><td>Threads</td><td>%s</td>", ModeName);
for (AnalysisTitles_t::iterator i = AnalysisTitles.begin(); i != AnalysisTitles.end(); i++)
fprintf(OutputFile, "<td>%s</td>", i->c_str()+1);
for (size_t i = 0; i < RoundTitles.size(); i++)
fprintf(OutputFile, "<td>%s</td>", RoundTitles[i].c_str());
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
fprintf(OutputFile, "</tr>\n<tr><td bgcolor=#CCFFCC>%s</td><td bgcolor=#CCFFCC>%d</td><td bgcolor=#CCFFCC>%4s</td>",
i->second->Name.c_str(), i->second->Threads, i->second->Mode.c_str());
//statistics
AnalysisTitles_t::iterator t = AnalysisTitles.begin();
for (Analysis_t::iterator j = i->second->Analysis.begin(); j != i->second->Analysis.end(); t++)
{
fprintf(OutputFile, "<td bgcolor=#FFFF99>%s</td>", (*t != j->first)?" ":(i->second->Analysis[j->first]).c_str());
if(*t == j->first) j++;
}
//data
Results_t &r = i->second->Results;
for (size_t k = 0; k < r.size(); k++)
{
fprintf(OutputFile, "<td>");
fprintf(OutputFile, ResultsFmt, r[k]);
fprintf(OutputFile, "</td>");
}
}
fprintf(OutputFile, "</tr>\n</table>\n");
//////////////////////////////////////////////////////
fprintf(OutputFile, "<table id=\"v\" style=\"visibility:hidden;position:absolute;top:20\" border=1 cellspacing=0 cellpadding=2>\n");
fprintf(OutputFile, "<tr><td><a name=vr href=#hr onclick=\"h.style.visibility='visible';"
"v.style.visibility='hidden';\">Flip[V]</a></td>\n"
"<td>%s</td><td>%s</td><td colspan=%u>%s</td>",
DateBuff, TimerBuff, unsigned(max(Statistics.size()-2,size_t(1))), Title.c_str());
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFCC><td bgcolor=#CCFFFF>Name</td>");
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, "<td>%s</td>", i->second->Name.c_str());
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFCC><td bgcolor=#CCFFFF>Threads</td>");
for (Statistics_t::iterator n = Statistics.begin(); n != Statistics.end(); n++)
fprintf(OutputFile, "<td>%d</td>", n->second->Threads);
fprintf(OutputFile, "</tr>\n<tr bgcolor=#CCFFCC><td bgcolor=#CCFFFF>%s</td>", ModeName);
for (Statistics_t::iterator m = Statistics.begin(); m != Statistics.end(); m++)
fprintf(OutputFile, "<td>%s</td>", m->second->Mode.c_str());
for (AnalysisTitles_t::iterator t = AnalysisTitles.begin(); t != AnalysisTitles.end(); t++)
{
fprintf(OutputFile, "</tr>\n<tr bgcolor=#FFFF99><td bgcolor=#CCFFFF>%s</td>", t->c_str()+1);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, "<td>%s</td>", i->second->Analysis.count(*t)?i->second->Analysis[*t].c_str():" ");
}
for (size_t r = 0; r < RoundTitles.size(); r++)
{
fprintf(OutputFile, "</tr>\n<tr><td bgcolor=#CCFFFF>%s</td>", RoundTitles[r].c_str());
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
Results_t &result = i->second->Results;
fprintf(OutputFile, "<td>");
if(result.size() > r)
fprintf(OutputFile, ResultsFmt, result[r]);
fprintf(OutputFile, "</td>");
}
}
fprintf(OutputFile, "</tr>\n</table>\n</body></html>\n");
fclose(OutputFile);
}
}
if (dataOutput & StatisticsCollector::ExcelXML)
{
if ((OutputFile = fopen((Name+".xml").c_str(), "w+t")) == NULL) {
printf("Can't open .xml file\n");
} else {
//vector<value_t> *TmpVect;
//Statistics_t::iterator ii, i = Statistics.begin();
//Analysis_t::iterator jj, j = i->second.Analysis.begin();
char UserName[100];
char SheetName[20];
char TimerBuff[100], DateBuff[100];
#if _WIN32 || _WIN64
strcpy(UserName,getenv("USERNAME"));
#else
strcpy(UserName,getenv("USER"));
#endif
//--------------------------------
strcpy(SheetName,"Horizontal");
GetTime(TimerBuff,sizeof(TimerBuff));
GetDate(DateBuff,sizeof(DateBuff));
//--------------------------
fprintf(OutputFile, XMLHead, UserName, TimerBuff);
fprintf(OutputFile, XMLStyles);
fprintf(OutputFile, XMLBeginSheet, SheetName);
fprintf(OutputFile, XMLNames,1,1,1,int(AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS));
fprintf(OutputFile, XMLBeginTable, int(RoundTitles.size()+Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+1/*title*/), int(Statistics.size()+1));
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellTopName);
fprintf(OutputFile, XMLCellTopThread);
fprintf(OutputFile, XMLCellTopMode, ModeName);
for (AnalysisTitles_t::iterator j = AnalysisTitles.begin(); j != AnalysisTitles.end(); j++)
fprintf(OutputFile, XMLAnalysisTitle, j->c_str()+1);
for (Formulas_t::iterator j = Formulas.begin(); j != Formulas.end(); j++)
fprintf(OutputFile, XMLAnalysisTitle, j->first.c_str()+1);
for (RoundTitles_t::iterator j = RoundTitles.begin(); j != RoundTitles.end(); j++)
fprintf(OutputFile, XMLAnalysisTitle, j->c_str());
fprintf(OutputFile, XMLCellEmptyWhite, Title.c_str());
fprintf(OutputFile, XMLERow);
//------------------------
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
{
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellName, i->second->Name.c_str());
fprintf(OutputFile, XMLCellThread,i->second->Threads);
fprintf(OutputFile, XMLCellMode, i->second->Mode.c_str());
//statistics
AnalysisTitles_t::iterator at = AnalysisTitles.begin();
for (Analysis_t::iterator j = i->second->Analysis.begin(); j != i->second->Analysis.end(); at++)
{
fprintf(OutputFile, XMLCellAnalysis, (*at != j->first)?"":(i->second->Analysis[j->first]).c_str());
if(*at == j->first) j++;
}
//formulas
size_t place = 0;
Results_t &v = i->second->Results;
for (Formulas_t::iterator f = Formulas.begin(); f != Formulas.end(); f++, place++)
fprintf(OutputFile, XMLCellFormula, ExcelFormula(f->second, Formulas.size()-place, v.size(), true).c_str());
//data
for (size_t k = 0; k < v.size(); k++)
{
fprintf(OutputFile, XMLCellData, v[k]);
}
if(v.size() < RoundTitles.size())
fprintf(OutputFile, XMLMergeRow, int(RoundTitles.size() - v.size()));
fprintf(OutputFile, XMLERow);
}
//------------------------
fprintf(OutputFile, XMLEndTable);
fprintf(OutputFile, XMLWorkSheetProperties,1,1,3,3,int(RoundTitles.size()+AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS));
fprintf(OutputFile, XMLAutoFilter,1,1,1,int(AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS));
fprintf(OutputFile, XMLEndWorkSheet);
//----------------------------------------
strcpy(SheetName,"Vertical");
fprintf(OutputFile, XMLBeginSheet, SheetName);
fprintf(OutputFile, XMLNames, int(Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+2),2,int(AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS+2),int(Statistics.size()+1));
fprintf(OutputFile, XMLBeginTable, int(max(Statistics.size()+1, size_t(7))), int(RoundTitles.size()+AnalysisTitles.size()+Formulas.size()+COUNT_PARAMETERS+2));
//fprintf(OutputFile, XMLColumsVerticalTable, Statistics.size()+1);
//----------------------------------------
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLNameAndTime, Name.c_str(), TimerBuff, DateBuff);
fprintf(OutputFile, XMLTableParamAndTitle, int(Statistics.size()), int(AnalysisTitles.size()), int(RoundTitles.size()), Title.c_str());
fprintf(OutputFile, XMLERow);
fprintf(OutputFile, XMLBRow);
//-------------------
fprintf(OutputFile, XMLCellTopName);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, XMLCellName, i->second->Name.c_str());
fprintf(OutputFile, XMLERow);
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellTopThread);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, XMLCellThread, i->second->Threads);
fprintf(OutputFile, XMLERow);
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellTopMode, ModeName);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, XMLCellMode, i->second->Mode.c_str());
fprintf(OutputFile, XMLERow);
//-----------------
for (AnalysisTitles_t::iterator t = AnalysisTitles.begin(); t != AnalysisTitles.end(); t++)
{
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLAnalysisTitle, t->c_str()+1);
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, XMLCellAnalysis, i->second->Analysis.count(*t)?(i->second->Analysis[*t]).c_str():"");
fprintf(OutputFile, XMLERow);
}
//-------------------------------------
for (Formulas_t::iterator t = Formulas.begin(); t != Formulas.end(); t++)
{
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLAnalysisTitle, t->first.c_str()+1);
size_t place = 0;
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
fprintf(OutputFile, XMLCellAnalysis, ExcelFormula(t->second, Formulas.size()-place, i->second->Results.size(), false).c_str());
fprintf(OutputFile, XMLERow);
}
//--------------------------------------
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLCellEmptyWhite, "Result");
fprintf(OutputFile, XMLERow);
for (size_t k = 0; k < RoundTitles.size(); k++)
{
fprintf(OutputFile, XMLBRow);
fprintf(OutputFile, XMLAnalysisTitle, RoundTitles[k].c_str());
for (Statistics_t::iterator i = Statistics.begin(); i != Statistics.end(); i++)
if(i->second->Results.size() > k)
fprintf(OutputFile, XMLCellData, i->second->Results[k]);
else
fprintf(OutputFile, XMLCellEmptyWhite, "");
fprintf(OutputFile, XMLERow);
}
fprintf(OutputFile, XMLEndTable);
//----------------------------------------
fprintf(OutputFile, XMLWorkSheetProperties, int(Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+2), int(Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+2),1,1,6);
fprintf(OutputFile, XMLAutoFilter, int(Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+2),2, int(Formulas.size()+AnalysisTitles.size()+COUNT_PARAMETERS+2), int(Statistics.size()+1));
//----------------------------------------
fprintf(OutputFile, XMLEndWorkSheet);
fprintf(OutputFile, XMLEndWorkbook);
fclose(OutputFile);
}
}
}
