ParamTable.cc
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/**
* ParamTable.cc
*
* Created on: 10 oct. 2014
* Author: AKKA
*/
#include "ParamTable.hh"
#include "Parameter.hh"
#include "ParamData.hh"
#include "ParamInfo.hh"
#include "ParamMgr.hh"
#include "Process.hh"
#include <algorithm>
using namespace log4cxx;
namespace AMDA {
namespace Info {
#define PUSHINFO(infoMap, key, value) if(!value.empty())infoMap.push_back(std::pair<std::string,std::string>(key,value))
LoggerPtr ParamTable::_logger(Logger::getLogger("AMDA-Kernel.ParamTable"));
ParamTable::ParamTable(const char *paramId) : _paramId(paramId),
_tableName(""), _tableUnits(""), _variable("false") {
}
ParamTable::~ParamTable() {
}
std::string ParamTable::getTableParamKeyForInfo(ParameterManager* /*parameterManager*/) {
return "";
}
/*
* @brief Get param id
*/
std::string ParamTable::getParamId(void) {
return _paramId;
}
/*
* @brief Set name of the table
*/
void ParamTable::setName(std::string name) {
_tableName = name;
}
/*
* @brief Get name of the table
*/
std::string ParamTable::getName(ParameterManager* parameterManager) {
if (_tableName.empty() && _variable) {
std::string paramKeyForInfo = getTableParamKeyForInfo(parameterManager);
if (!paramKeyForInfo.empty()) {
std::string tableParam = getTableParamByKey(parameterManager, paramKeyForInfo);
AMDA::Info::ParamInfoSPtr paramTableInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(tableParam);
if (paramTableInfo != nullptr)
return paramTableInfo->getName();
}
}
return _tableName;
}
/*
* @brief Set units
*/
void ParamTable::setUnits(std::string units) {
_tableUnits = units;
}
/*
* @brief Get units of the table
*/
std::string ParamTable::getUnits(ParameterManager* parameterManager) {
if (_tableName.empty() && _variable) {
std::string paramKeyForInfo = getTableParamKeyForInfo(parameterManager);
if (!paramKeyForInfo.empty()) {
std::string tableParam = getTableParamByKey(parameterManager, paramKeyForInfo);
AMDA::Info::ParamInfoSPtr paramTableInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(tableParam);
if (paramTableInfo != nullptr)
return paramTableInfo->getUnits();
}
}
return _tableUnits;
}
/*
* @brief Set isVariable attribute
*/
void ParamTable::setIsVariable(bool isVariable) {
_variable = isVariable;
}
/*
* @brief Get if it's a variable table
*/
bool ParamTable::isVariable(ParameterManager* /*parameterManager*/) {
return _variable;
}
/*
* @brief Set isVariable attribute
*/
void ParamTable::setIsFullVariable(bool isFullVariable) {
_fullVariable = isFullVariable;
}
/*
* @brief Get if it's a variable table
*/
bool ParamTable::isFullVariable(ParameterManager* /*parameterManager*/) {
return _fullVariable;
}
void ParamTable::addRelatedParams(ParameterManager *parameterManager, std::string paramId, std::list<std::string>relatedParams){
AMDA::Info::ParamInfoSPtr paramInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(paramId);
if(paramInfo == NULL)
return;
const std::vector<std::string>& paramLinkedParams = paramInfo->getLinkedParamList();
if(paramLinkedParams.empty())
return;
for (auto pId : paramLinkedParams){
relatedParams.push_back(pId);
addRelatedParams(parameterManager, paramId, relatedParams);
}
return;
}
void ParamTable::addTableParam(std::string key, std::string name) {
_tableParams[key] = name;
}
std::string ParamTable::getTableParamByKey(ParameterManager* /*parameterManager*/, std::string key) {
return _tableParams[key];
}
std::map<std::string, std::string>& ParamTable::getTableParams(ParameterManager* /*parameterManager*/) {
return _tableParams;
}
std::vector<double> ParamTable::getConstantTableParamValuesByKey(ParameterManager *parameterManager, std::string key) {
std::vector<double> paramValues;
ParameterSPtr tmpParam = parameterManager->getParameter(_paramId);
if (tmpParam == nullptr)
return paramValues;
AMDA::Parameters::Parameter::InfoList lInfoList = tmpParam->getInfoList();
if (_tableParams.find(key) == _tableParams.end())
return paramValues;
std::string tableParamName = _tableParams[key];
if (lInfoList.find(tableParamName) == lInfoList.end())
return paramValues;
paramValues = *lInfoList[tableParamName].get();
return paramValues;
}
std::vector<double> ParamTable::getVariableTableParamValuesByKey(ParameterManager* /*parameterManager*/, std::map<std::string, std::vector<double>>*paramsTableData, std::string key) {
std::vector<double> paramValues;
if (paramsTableData == NULL)
return paramValues;
if (paramsTableData->find(key) == paramsTableData->end())
return paramValues;
return (*paramsTableData)[key];
}
std::vector<double> ParamTable::getTableParamValuesByKey(ParameterManager *parameterManager, std::map<std::string, std::vector<double>>*paramsTableData, std::string key) {
if (_variable)
return getVariableTableParamValuesByKey(parameterManager, paramsTableData, key);
else
return getConstantTableParamValuesByKey(parameterManager, key);
}
void ParamTable::addTableInfo(ParameterManager *parameterManager, int dim, std::vector<std::pair<std::string, std::string>>&infoMap) {
std::stringstream tableDim;
tableDim << dim;
std::stringstream infoKey;
infoKey.str("");
infoKey << PARAMETER_TABLE << "[" << tableDim.str() << "]";
PUSHINFO(infoMap, infoKey.str(), this->getName(parameterManager));
infoKey.str("");
infoKey << PARAMETER_TABLE_UNITS << "[" << tableDim.str() << "]";
PUSHINFO(infoMap, infoKey.str(), this->getUnits(parameterManager));
if (this->isVariable(parameterManager)) {
this->addVariableTableInfo(parameterManager, dim, infoMap);
} else {
//build min and max values list
std::stringstream tableMinValues;
std::stringstream tableMaxValues;
for (int i = 0; i< this->getSize(parameterManager); ++i) {
if (i > 0) {
tableMinValues << ",";
tableMaxValues << ",";
}
AMDA::Info::t_TableBound bound = this->getBound(parameterManager, i);
tableMinValues << bound.min;
tableMaxValues << bound.max;
}
infoKey.str("");
infoKey << PARAMETER_TABLE_MINVAL << "[" << tableDim.str() << "]";
PUSHINFO(infoMap, infoKey.str(), tableMinValues.str());
infoKey.str("");
infoKey << PARAMETER_TABLE_MAXVAL << "[" << tableDim.str() << "]";
PUSHINFO(infoMap, infoKey.str(), tableMaxValues.str());
}
}
void ParamTable::addSemiVariableTableInfo(ParameterManager* parameterManager, int dim, std::string paramId, std::string tabKey, std::vector<std::pair<std::string, std::string>>&infoMap) {
AMDA::Parameters::ParameterSPtr pParam = parameterManager->getParameter(paramId);
Process* lProcess = dynamic_cast<Process*> (pParam->getDataWriterTemplate().get());
if (lProcess != NULL) {
AMDA::Parameters::SemiVariableTable semiVariableTable = lProcess ->getSemiVariableTable();
std::list<std::string>::iterator it;
it = std::find(_printedTables.begin(), _printedTables.end(), paramId);
if (!semiVariableTable.tabHeader.empty() && it == _printedTables.end()) {
std::stringstream head;
head.str("");
head << "mode" << " ";
for (auto h : semiVariableTable.tabHeader) {
head << h << " ";
}
PUSHINFO(infoMap, "", head.str());
// recuperer les centres
bool variableSizes = false;
//unsigned int nModes = semiVariableTable.tabValues.size();
unsigned int index =0;
unsigned nValues = 0;
for (auto tabValues : semiVariableTable.tabValues) {
if (index == 0)
nValues = tabValues.second.size();
if (tabValues.second.size() != nValues)
variableSizes = true;
++index;
}
if (variableSizes || !semiVariableTable.calculateBounds) {
std::ostringstream values;
for (auto tabValues : semiVariableTable.tabValues) {
values << tabValues.first << " ";
for (unsigned int i = 0; i < nValues; i++) {
if (i < tabValues.second.size()) {
values << std::to_string(tabValues.second[i]) << " ";
} else {
values << "NAN ";
}
}
PUSHINFO(infoMap, "", values.str());
values.str("");
}
} else {
std::vector<double> energyVec;
std::map<std::string, std::vector<double>> paramsTableData;
std::map<int, std::vector<double>> semiVariableTableData;
int nMode=0;
for (auto tabValues : semiVariableTable.tabValues) {
paramsTableData[tabKey] = tabValues.second;
for (unsigned int j = 0; j < nValues; ++j) {
t_TableBound bound = getBound(parameterManager, j , ¶msTableData);
if(bound.min != j/2 && bound.max !=j/2+1){
semiVariableTableData[nMode].push_back(bound.min);
semiVariableTableData[nMode + 1].push_back(bound.max);
}
}
nMode +=2;
}
int l = 0;
int k = 0;
for (auto v : semiVariableTableData) {
std::ostringstream values;
std::string born;
(l % 2 == 0) ? born = " Min " : born = " Max ";
values << std::to_string(k) << born;
// Convert all doubles to string ","
std::copy(v.second.begin(), v.second.end(),
std::ostream_iterator<double>(values, " "));
PUSHINFO(infoMap, "", values.str());
values.str("");
if (l % 2 != 0)
k++;
l++;
}
}
_printedTables.push_back(paramId);
}
}
AMDA::Info::ParamInfoSPtr paramInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(paramId);
const std::vector<std::string>& paramLinkedParams = paramInfo->getLinkedParamList();
for (auto pId : paramLinkedParams)
addSemiVariableTableInfo(parameterManager, dim, pId, tabKey, infoMap);
return;
}
void ParamTable::addVariableTableInfo(ParameterManager * parameterManager, int dim, std::vector<std::pair<std::string, std::string>>&tableInfo) {
std::map<std::string, std::string>& tableParams = this->getTableParams(parameterManager);
if (!tableParams.empty()) {
std::stringstream infoKey;
int i = 0;
for (auto tableParam : tableParams) {
infoKey.str("");
infoKey << VARIABLE_PARAMETER_TABLE << tableParam.first << "[" << i << "]";
PUSHINFO(tableInfo, infoKey.str(), tableParam.second);
AMDA::Parameters::ParameterSPtr variableTableParam = parameterManager->getParameter(tableParam.second);
addSemiVariableTableInfo(parameterManager, dim, tableParam.second, tableParam.first, tableInfo);
i++;
}
}
}
std::string ParamBoundsTable::_boundsParamKey = "TABLEPARAM_BOUNDS";
ParamBoundsTable::ParamBoundsTable(const char *paramId) :
ParamTable(paramId) {
}
std::string ParamBoundsTable::getTableParamKeyForInfo(ParameterManager* /*parameterManager*/) {
return ParamBoundsTable::_boundsParamKey;
}
/*
* @brief Get size of the table
*/
int ParamBoundsTable::getSize(ParameterManager *parameterManager) {
if (!_variable) {
std::vector<double> boundsValues = getConstantTableParamValuesByKey(parameterManager, ParamBoundsTable::_boundsParamKey);
return boundsValues.size() - 1;
} else {
return 0;
}
}
/*
* @brief Get a bounds for a specified index
*/
t_TableBound ParamBoundsTable::getBound(ParameterManager *parameterManager, unsigned int index, std::map<std::string, std::vector<double>>*paramsTableData) {
t_TableBound bound;
bound.index = index;
std::vector<double> boundsValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamBoundsTable::_boundsParamKey);
if (boundsValues.empty() || (index >= boundsValues.size() - 1)) {
LOG4CXX_ERROR(_logger, "Index " << index << " outside of table definition => Cannot get real bound");
bound.min = index;
bound.max = index + 1;
return bound;
}
bound.min = std::min(boundsValues[index], boundsValues[index + 1]);
bound.max = std::max(boundsValues[index], boundsValues[index + 1]);
return bound;
}
std::string ParamCenterTable::_centersParamKey = "TABLEPARAM_CENTERS";
ParamCenterTable::ParamCenterTable(const char *paramId, double size) :
ParamTable(paramId), _size(size) {
}
std::string ParamCenterTable::getTableParamKeyForInfo(ParameterManager* /*parameterManager*/) {
return ParamCenterTable::_centersParamKey;
}
/*
* @brief Get size of the table
*/
int ParamCenterTable::getSize(ParameterManager *parameterManager) {
if (!_variable) {
std::vector<double> centersValues = getConstantTableParamValuesByKey(parameterManager, ParamCenterTable::_centersParamKey);
return centersValues.size();
} else {
return 0;
}
}
/*
* @brief Get a bound for a specified index
*/
t_TableBound ParamCenterTable::getBound(ParameterManager *parameterManager, unsigned int index, std::map<std::string, std::vector<double>>*paramsTableData) {
t_TableBound bound;
bound.index = index;
std::vector<double> centersValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamCenterTable::_centersParamKey);
if (index >= centersValues.size()) {
LOG4CXX_ERROR(_logger, "Index " << index << " outside of table definition => Cannot get real bound");
bound.min = index;
bound.max = index + 1;
return bound;
}
if (!std::isnan(centersValues[index])) {
bound.min = centersValues[index] - _size / 2.;
bound.max = centersValues[index] + _size / 2.;
} else {
bound.min = NAN;
bound.max = NAN;
}
return bound;
}
std::string ParamCenterWidthTable::_centersParamKey = "TABLEPARAM_CENTERS";
std::string ParamCenterWidthTable::_widthsParamKey = "TABLEPARAM_WIDTHS";
ParamCenterWidthTable::ParamCenterWidthTable(const char *paramId) :
ParamTable(paramId) {
}
std::string ParamCenterWidthTable::getTableParamKeyForInfo(ParameterManager* /*parameterManager*/) {
return ParamCenterWidthTable::_centersParamKey;
}
/*
* @brief Get size of the table
*/
int ParamCenterWidthTable::getSize(ParameterManager *parameterManager) {
if (!_variable) {
std::vector<double> centersValues = getConstantTableParamValuesByKey(parameterManager, ParamCenterWidthTable::_centersParamKey);
return centersValues.size();
} else {
return 0;
}
}
/*
* @brief Get a bound for a specified index
*/
t_TableBound ParamCenterWidthTable::getBound(ParameterManager *parameterManager, unsigned int index, std::map<std::string, std::vector<double>>*paramsTableData) {
t_TableBound bound;
bound.index = index;
std::vector<double> centersValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamCenterWidthTable::_centersParamKey);
std::vector<double> widthsValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamCenterWidthTable::_widthsParamKey);
if ((index >= centersValues.size()) || (index >= widthsValues.size())) {
LOG4CXX_ERROR(_logger, "Index " << index << " outside of table definition => Cannot get real bound");
bound.min = index;
bound.max = index + 1;
return bound;
}
if (!std::isnan(centersValues[index]) && !std::isnan(widthsValues[index])) {
bound.min = centersValues[index] - widthsValues[index] / 2.;
bound.max = centersValues[index] + widthsValues[index] / 2.;
} else {
bound.min = NAN;
bound.max = NAN;
}
return bound;
}
std::string ParamCenterAutoTable::_centersParamKey = "TABLEPARAM_CENTERS";
ParamCenterAutoTable::ParamCenterAutoTable(const char *paramId, bool log) :
ParamTable(paramId), _log(log) {
}
std::string ParamCenterAutoTable::getTableParamKeyForInfo(ParameterManager* /*parameterManager*/) {
return ParamCenterAutoTable::_centersParamKey;
}
/*
* @brief Get size of the table
*/
int ParamCenterAutoTable::getSize(ParameterManager *parameterManager) {
if (!_variable) {
std::vector<double> centersValues = getConstantTableParamValuesByKey(parameterManager, ParamCenterAutoTable::_centersParamKey);
return centersValues.size();
} else {
return 0;
}
}
/*
* @brief Get a bound for a specified index
*/
t_TableBound ParamCenterAutoTable::getBound(ParameterManager *parameterManager, unsigned int index, std::map<std::string, std::vector<double>>*paramsTableData) {
t_TableBound bound;
bound.index = index;
std::vector<double> centersValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamCenterAutoTable::_centersParamKey);
if (index >= centersValues.size()) {
LOG4CXX_ERROR(_logger, "Index " << index << " outside of table definition => Cannot get real bound");
bound.min = index;
bound.max = index + 1;
return bound;
}
//Compute bounds
if (centersValues.size() <= 1) {
LOG4CXX_ERROR(_logger, "Table dimension too small to compute bound");
bound.min = index;
bound.max = index + 1;
return bound;
}
double minus = 0.;
double plus = 0.;
if (index == 0) {
if (!std::isnan(centersValues[1]) && !std::isnan(centersValues[0])) {
if (_log)
plus = (log10(centersValues[1]) - log10(centersValues[0])) / 2.;
else
plus = (centersValues[1] - centersValues[0]) / 2.;
} else
plus = NAN;
minus = plus;
} else if (index == centersValues.size() - 1) {
if (!std::isnan(centersValues[centersValues.size() - 1]) && !std::isnan(centersValues[centersValues.size() - 2])) {
if (_log)
minus = (log10(centersValues[centersValues.size() - 1]) - log10(centersValues[centersValues.size() - 2])) / 2.;
else
minus = (centersValues[centersValues.size() - 1] - centersValues[centersValues.size() - 2]) / 2.;
} else
minus = NAN;
plus = minus;
} else {
if (_log) {
if (!std::isnan(centersValues[index]) && !std::isnan(centersValues[index - 1]) && (centersValues[index] > 0) && (centersValues[index - 1] > 0))
minus = (log10(centersValues[index]) - log10(centersValues[index - 1])) / 2.;
else
minus = NAN;
if (!std::isnan(centersValues[index + 1]) && !std::isnan(centersValues[index]) && (centersValues[index + 1] > 0) && (centersValues[index] > 0))
plus = (log10(centersValues[index + 1]) - log10(centersValues[index])) / 2.;
else
plus = NAN;
} else {
if (!std::isnan(centersValues[index]) && !std::isnan(centersValues[index - 1]))
minus = (centersValues[index] - centersValues[index - 1]) / 2.;
else
minus = NAN;
if (!std::isnan(centersValues[index + 1]) && !std::isnan(centersValues[index]))
plus = (centersValues[index + 1] - centersValues[index]) / 2.;
else
plus = NAN;
}
}
if (_log) {
if (!std::isnan(minus))
bound.min = exp(log10(centersValues[index]) - minus);
else
bound.min = NAN;
if (!std::isnan(plus))
bound.max = exp(log10(centersValues[index]) + plus);
else
bound.max = NAN;
} else {
if (!std::isnan(minus))
bound.min = centersValues[index] - minus;
else
bound.min = NAN;
if (!std::isnan(plus))
bound.max = centersValues[index] + plus;
else
bound.max = NAN;
}
if (bound.min > bound.max) {
double temp = bound.max;
bound.max = bound.min;
bound.min = temp;
}
return bound;
}
std::string ParamMinMaxTable::_minParamKey = "TABLEPARAM_MIN";
std::string ParamMinMaxTable::_maxParamKey = "TABLEPARAM_MAX";
ParamMinMaxTable::ParamMinMaxTable(const char *paramId) : ParamTable(paramId) {
}
/*
* @brief Get size of the table
*/
int ParamMinMaxTable::getSize(ParameterManager *parameterManager) {
if (!_variable) {
std::vector<double> minValues = getConstantTableParamValuesByKey(parameterManager, ParamMinMaxTable::_minParamKey);
return minValues.size();
} else {
return 0;
}
}
/*
* @brief Get bound for a specified index
*/
t_TableBound ParamMinMaxTable::getBound(ParameterManager *parameterManager, unsigned int index, std::map<std::string, std::vector<double>>*paramsTableData) {
t_TableBound bound;
bound.index = index;
std::vector<double> minValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamMinMaxTable::_minParamKey);
std::vector<double> maxValues = getTableParamValuesByKey(parameterManager, paramsTableData, ParamMinMaxTable::_maxParamKey);
if ((index >= minValues.size()) || (index >= maxValues.size())) {
LOG4CXX_ERROR(_logger, "Index " << index << " outside of table definition => Cannot get real bound");
bound.min = index;
bound.max = index + 1;
return bound;
}
bound.min = std::min(minValues[index], maxValues[index]);
bound.max = std::max(minValues[index], maxValues[index]);
return bound;
}
LinkTable::LinkTable(const char *paramId, const char* originParamId) : ParamTable(paramId), _originParamId(originParamId), _originTableDim(0) {
}
ParamTable* LinkTable::getOriginParamTable(ParameterManager* parameterManager) {
if (parameterManager == NULL) {
return NULL;
}
ParameterSPtr tmpParam = parameterManager->getParameter(_originParamId);
if (tmpParam == nullptr) {
return NULL;
}
ParamInfoSPtr paramInfo = ParamMgr::getInstance()->getParamInfoFromId(tmpParam->getInfoId());
if (paramInfo == nullptr) {
return NULL;
}
boost::shared_ptr<AMDA::Info::ParamTable> tableSPtr = paramInfo->getTable(_originTableDim);
if (tableSPtr == nullptr) {
return NULL;
}
return tableSPtr.get();
}
std::string LinkTable::getTableParamKeyForInfo(ParameterManager* parameterManager) {
std::string res = "";
ParamTable* table = getOriginParamTable(parameterManager);
if (table != NULL) {
res = table->getTableParamKeyForInfo(parameterManager);
}
return res;
}
std::string LinkTable::getName(ParameterManager* parameterManager) {
std::string res = "";
ParamTable* table = getOriginParamTable(parameterManager);
if (table != NULL) {
res = table->getName(parameterManager);
}
return res;
}
std::string LinkTable::getUnits(ParameterManager* parameterManager) {
std::string res = "";
ParamTable* table = getOriginParamTable(parameterManager);
if (table != NULL) {
res = table->getUnits(parameterManager);
}
return res;
}
bool LinkTable::isVariable(ParameterManager* parameterManager) {
bool res = false;
ParamTable* table = getOriginParamTable(parameterManager);
if (table != NULL) {
res = table->isVariable(parameterManager);
}
return res;
}
bool LinkTable::isFullVariable(ParameterManager* parameterManager) {
bool res = false;
ParamTable* table = getOriginParamTable(parameterManager);
if (table != NULL) {
res = table->isFullVariable(parameterManager);
}
return res;
}
std::map<std::string, std::string>& LinkTable::getTableParams(ParameterManager* parameterManager) {
ParamTable* table = getOriginParamTable(parameterManager);
if (table == NULL) {
return _emptyTableParam;
}
return table->getTableParams(parameterManager);
}
int LinkTable::getSize(ParameterManager *parameterManager) {
ParamTable* table = getOriginParamTable(parameterManager);
if (table == NULL) {
return 0;
}
return table->getSize(parameterManager);
}
t_TableBound LinkTable::getBound(ParameterManager *parameterManager, unsigned int index, std::map<std::string, std::vector<double>>*paramsTableData) {
t_TableBound res;
ParamTable* table = getOriginParamTable(parameterManager);
if (table == NULL) {
res.index = index;
res.min = index;
res.max = index + 1;
} else {
res = table->getBound(parameterManager, index, paramsTableData);
}
return res;
}
} /* namespace Info */
} /* namespace AMDA */