// #################################################################
//f パラメータをロード
bool IP_PMT::getTP(Control* R, TextParser* tpCntl)
{
std::string str;
std::string label;
// 媒質指定
label="/IntrinsicExample/FluidMedium";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_fluid = str;
label="/IntrinsicExample/SolidMedium";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_solid = str;
return true;
}
// #################################################################
// ファイルフォーマットのオプションを指定する
void IO_BASE::getFormatOption(const string form)
{
string str;
string label;
string dir;
int ct;
// ディレクトリのチェック
dir = "/Output/FormatOption/" + form;
if ( !(tpCntl->chkNode(dir)) )
{
Hostonly_ stamped_printf("\tParsing error : Missing '%s'\n", dir.c_str());
Exit(0);
}
// 出力ガイドセルモード
label = dir + "/GuideOut";
if ( !(tpCntl->getInspectedValue(label, ct)) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
Exit(0);
}
if ( ct < 0 || ct > guide )
{
Hostonly_ stamped_printf("\tInvalid range of guide out /Output/FormatOption/*/GuideOut : 0 <= guideout <= %d\n", guide);
Exit(0);
}
C->GuideOut = GuideOut = ct;
}
// #################################################################
// 例題名称の表示
void Intrinsic::printExample(FILE* fp, const int m_id)
{
if ( !fp )
{
stamped_printf("\tFail to write into file\n");
Exit(0);
}
string str;
if ( m_id == id_Polygon ) str = "Polygon";
else if ( m_id == id_Duct ) str = "Duct";
else if ( m_id == id_PMT ) str = "Performance Test";
else if ( m_id == id_Rect ) str = "Rectangular";
else if ( m_id == id_Cylinder) str = "Cylinder";
else if ( m_id == id_Step ) str = "Back Step";
else if ( m_id == id_PPLT2D) str = "Parallel Plate 2D";
else if ( m_id == id_Sphere ) str = "Sphere";
else if ( m_id == id_Jet ) str = "Jet";
else
{
stamped_printf("\tInvalid keyword is described for Exmple definition\n");
Exit(0);
}
fprintf(fp,"\n\tChallenge : %s\n\n", str.c_str()); fflush(fp);
printf ("\n\tChallenge : %s\n\n", str.c_str());
}
// #################################################################
// ステージングオプション
void IO_BASE::getStagingOption()
{
string str;
string label;
// Staging option
label="/StartCondition/Restart/Staging";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
;
}
else
{
if ( !strcasecmp(str.c_str(), "on") ) C->Restart_staging = ON;
else if( !strcasecmp(str.c_str(), "off") ) C->Restart_staging = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
}
// #################################################################
// polylibファイルをテンポラリに出力
bool IO_BASE::writePolylibFile(CompoList* cmp)
{
FILE* fp;
if ( !(fp=fopen("polylib.tp", "w")) )
{
stamped_printf("\tSorry, can't open 'polylib.tp' file. Write failed.\n");
return false;
}
fprintf(fp,"Polylib {\n");
for (int k=1; k<=C->NoBC; k++)
{
int m = C->NoMedium + k;
if (cmp[m].kind_inout==CompoList::kind_inner && cmp[m].getType() != SOLIDREV)
{
const string str = cmp[m].getBCstr2Polylib();
writePolylibGrp(fp, cmp[m].alias, cmp[m].filepath, cmp[m].medium, str);
}
}
fprintf(fp,"}\n");
fclose(fp);
return true;
}
// #################################################################
// 例題クラス固有のパラメータの表示
void Intrinsic::printPara(FILE* fp, const Control* R)
{
if ( !fp ) {
stamped_printf("\tFail to write into file\n");
Exit(0);
}
// describe method
}
// #################################################################
// 初期値
// @todo セルフェイスの粗格子リスタート >> 近似なのでサボる?
// @ see getTimeControl()
void IO_BASE::getStartCondition()
{
string str;
string label, leaf;
// 初期条件 温度はParseBC::getInitTempOfMedium()
if ( C->Start == initial_start )
{
/* Density
label="/StartCondition/InitialState/MassDensity";
if ( !(tpCntl->getInspectedValue(label, iv.Density )) )
{
Hostonly_ stamped_printf("\tParsing error : Invalid float value for '%s'\n", label.c_str());
Exit(0);
}
*/
// Pressure
label="/StartCondition/InitialState/Pressure";
if ( !(tpCntl->getInspectedValue(label, C->iv.Pressure )) )
{
Hostonly_ stamped_printf("\tParsing error : Invalid float value for '%s'\n", label.c_str());
Exit(0);
}
// Velocity
REAL_TYPE v[3];
for (int n=0; n<3; n++) v[n]=0.0;
label="/StartCondition/InitialState/Velocity";
if( !(tpCntl->getInspectedVector(label, v, 3)) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get velocity in '%s'\n", label.c_str());
Exit(0);
}
C->iv.VecU = v[0];
C->iv.VecV = v[1];
C->iv.VecW = v[2];
}
}
// #################################################################
// AVSファイル入出力に関するパラメータ
void COMB::get_AVSoptions(TextParser* tpCntl)
{
string str;
string label;
//FormatType
label = "/AVSoptions/FormatType";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
output_format_type = OUTPUT_FORMAT_TYPE_BINARY;
}
else
{
if ( !strcasecmp(str.c_str(), "binary") ) output_format_type = OUTPUT_FORMAT_TYPE_BINARY;
else if( !strcasecmp(str.c_str(), "ascii") ) output_format_type = OUTPUT_FORMAT_TYPE_ASCII;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
//DivideFunc
label = "/AVSoptions/DivideFunc";
if( !(tpCntl->getInspectedValue(label, str )) )
{
output_divfunc = OUTPUT_DIV_FUNC_OFF;
}
else
{
if ( !strcasecmp(str.c_str(), "on") ) output_divfunc = OUTPUT_DIV_FUNC_ON;
else if( !strcasecmp(str.c_str(), "uff") ) output_divfunc = OUTPUT_DIV_FUNC_OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
}
// #################################################################
// パラメータの表示
void IP_Step::printPara(FILE* fp, const Control* R)
{
if ( !fp )
{
stamped_printf("\tFail to write into file\n");
Exit(0);
}
fprintf(fp,"\n----------\n\n");
fprintf(fp,"\n\t>> Intrinsic Backstep Class Parameters\n\n");
fprintf(fp,"\tDimension Mode : %s\n", (mode==dim_2d)?"2 Dimensional":"3 Dimensional");
fprintf(fp,"\tStep Width (x-dir.) [m] / [-] : %12.5e / %12.5e\n", width, width/RefL);
fprintf(fp,"\tStep Height(z-dir.) [m] / [-] : %12.5e / %12.5e\n", height, height/RefL);
}
// #################################################################
// パラメータの表示
void IP_Duct::printPara(FILE* fp, const Control* R)
{
if ( !fp ) {
stamped_printf("\tFail to write into file\n");
Exit(0);
}
std::string dir;
switch (driver.direction) {
case X_minus:
case X_plus:
dir = "X dir.";
break;
case Y_minus:
case Y_plus:
dir = "Y dir.";
break;
case Z_minus:
case Z_plus:
dir = "Z dir.";
break;
}
fprintf(fp,"\n---------------------------------------------------------------------------\n\n");
fprintf(fp,"\n\t>> Intrinsic Duct Class Parameters\n\n");
fprintf(fp,"\tShape of cross-section : %s\n", (driver.shape==id_circular)?"Circular":"Rectangular");
fprintf(fp,"\tDiameter [m] / [-] : %12.5e / %12.5e\n", driver.diameter, driver.diameter/RefL);
fprintf(fp,"\tDirection of periodic BC : %s\n", dir.c_str());
if ( driver.length > 0.0 ) {
fprintf(fp,"\twith Driver : %s\n", FBUtility::getDirection(driver.direction).c_str());
fprintf(fp,"\t Driver Length [m] / [-] : %12.5e / %12.5e\n", driver.length, driver.length/RefL);
}
}
// #################################################################
// BCflagをbvxで出力する
int IO_BASE::writeBCflag(const int out_gc)
{
if (IO_BCflag != ON) return 0;
unsigned bitWidth = 5;
int rank = paraMngr->GetMyRankID(procGrp);
int ix = size[0];
int jx = size[1];
int kx = size[2];
int gc = out_gc;
int gd = guide;
size_t nx = (ix+2*gc) * (jx+2*gc) * (kx+2*gc);
// unsignd int
unsigned* buf = new unsigned[nx];
// start index Active, State bitはマスクする >> 30bitのみ
unsigned val = (unsigned)(d_cdf[ _F_IDX_S3D(1-gc, 1-gc, 1-gc, ix, jx, kx, gd) ] & 0x3fffffff);
int c=0;
#pragma omp parallel for firstprivate(ix, jx, kx, gc, gd, val) schedule(static) reduction(+:c)
for (int k=1-gc; k<=kx+gc; k++) {
for (int j=1-gc; j<=jx+gc; j++) {
for (int i=1-gc; i<=ix+gc; i++) {
size_t m0 = _F_IDX_S3D(i, j, k, ix, jx, kx, gd);
size_t m1 = _F_IDX_S3D(i, j, k, ix, jx, kx, gc);
unsigned tmp = (unsigned)(d_cdf[m0] & 0x3fffffff);
buf[m1] = tmp;
if ( tmp == val ) c++;
}
}
}
bool ret = false;
int ret_val=0;
// サブドメイン内が同じ値の時(c==nx)には、BCflag配列を書き出さない
if ( c != nx )
{
ret = BVX_IO::Save_Block_BCflag(size, gc, bitWidth, rank, OutDirPath, buf, BVXcomp);
if ( !ret )
{
stamped_printf("\tError : when saving BCflag\n");
Exit(0);
}
ret_val = -1;
}
else
{
ret_val = (int)val;
}
if (buf)
{
delete [] buf;
buf = NULL;
}
return ret_val;
}
// #################################################################
// ファイル入出力に関するパラメータを取得し,出力の並列モードを指定, PLOT3Dバッファサイズ
// @pre Control::getTimeControl()
void IO_BASE::getFIOparams()
{
REAL_TYPE f_val=0.0;
string str;
string label, leaf;
// Default setting
IOmode = IO_DISTRIBUTE;
// 逐次実行の場合には、強制的に IO_GATHER
if ( (C->Parallelism == Control::Serial) || (C->Parallelism == Control::OpenMP) )
{
IOmode = IO_GATHER;
}
// Output Directory_Path
label = "/Output/Data/DirectoryPath";
if ( !(tpCntl->getInspectedValue(label, str)) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
// 指定が無ければ,空のまま
if ( !str.empty() )
{
OutDirPath = str;
}
// TimeSlice option
label = "/Output/Data/TimeSlice";
if ( !(tpCntl->getInspectedValue(label, str)) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
Slice = ON;
}
else
{
Slice = OFF;
}
// 1プロセスの場合にはランク番号がないので、タイムスライス毎のディレクトリは作らない
if ( (C->Parallelism == Control::Serial) || (C->Parallelism == Control::OpenMP) )
{
Slice = OFF;
}
// 基本変数の瞬時値データ
// インターバル
label = "/Output/Data/BasicVariables/TemporalType";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
else
{
if ( !strcasecmp(str.c_str(), "step") )
{
C->Interval[Control::tg_basic].setMode(IntervalManager::By_step);
C->Interval[Control::tg_derived].setMode(IntervalManager::By_step);
}
else if( !strcasecmp(str.c_str(), "time") )
{
C->Interval[Control::tg_basic].setMode(IntervalManager::By_time);
C->Interval[Control::tg_derived].setMode(IntervalManager::By_time);
}
else
{
Hostonly_ stamped_printf("\tParsing error : Invalid keyword for '%s'\n", label.c_str());
Exit(0);
}
label="/Output/Data/BasicVariables/Interval";
if ( !(tpCntl->getInspectedValue(label, f_val )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
else
{
C->Interval[Control::tg_basic].setInterval((double)f_val);
C->Interval[Control::tg_derived].setInterval((double)f_val);
}
}
// DryRunBCが指定されているとき,ファイル出力間隔を無限大に設定
if ( C->Hide.DryRun == ON )
{
double ppp = 1.0e6;
C->Interval[Control::tg_basic].setInterval(ppp);
C->Interval[Control::tg_derived].setInterval(ppp);
}
switch ( Format )
{
case sph_fmt:
getFormatOption("sph");
break;
case bov_fmt:
getFormatOption("bov");
break;
case plt3d_fun_fmt:
getFormatOption("plot3d");
break;
}
// 固有のオプション
getInherentOption();
// 全圧
label="/Output/Data/BasicVariables/TotalPressure";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->varState[var_TotalP] = ON;
C->NvarsIns_plt3d += 1;
}
else if( !strcasecmp(str.c_str(), "off") ) C->varState[var_TotalP] = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// 渦度ベクトル
label="/Output/Data/BasicVariables/Vorticity";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->varState[var_Vorticity] = ON;
C->NvarsIns_plt3d += 3;
}
else if( !strcasecmp(str.c_str(), "off") ) C->varState[var_Vorticity] = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// 速度勾配テンソルの第2不変量
label="/Output/Data/BasicVariables/Qcriterion";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->varState[var_Qcr] = ON;
C->NvarsIns_plt3d += 1;
}
else if( !strcasecmp(str.c_str(), "off") ) C->varState[var_Qcr] = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// ヘリシティ
label="/Output/Data/BasicVariables/Helicity";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->varState[var_Helicity] = ON;
C->NvarsIns_plt3d += 1;
}
else if( !strcasecmp(str.c_str(), "off") ) C->varState[var_Helicity] = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// 発散値
label="/Output/Data/BasicVariables/Divergence";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->varState[var_Div] = ON;
C->NvarsIns_plt3d += 1;
}
else if( !strcasecmp(str.c_str(), "off") ) C->varState[var_Div] = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// 統計値操作に関するパラメータを取得
if ( C->Mode.Statistic == ON )
{
label = "/Output/Data/StatisticalVariables/TemporalType";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
else
{
if ( !strcasecmp(str.c_str(), "step") )
{
if ( C->Interval[Control::tg_statistic].getMode() == IntervalManager::By_time )
{
Hostonly_ stamped_printf("\tError : Specified temporal mode is not consistent with '/TimeControl/Statistic/TemporalType'\n");
Exit(0);
}
}
else if( !strcasecmp(str.c_str(), "time") )
{
if ( C->Interval[Control::tg_statistic].getMode() == IntervalManager::By_step )
{
Hostonly_ stamped_printf("\tError : Specified temporal mode is not consistent with '/TimeControl/Statistic/TemporalType'\n");
Exit(0);
}
}
else
{
Hostonly_ stamped_printf("\tParsing error : Invalid keyword for '%s'\n", label.c_str());
Exit(0);
}
}
double val;
label="/Output/Data/StatisticalVariables/Interval";
if ( !(tpCntl->getInspectedValue(label, val )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
else
{
C->Interval[Control::tg_statistic].setInterval(val);
}
// Statistic for velocity
label="/Output/Data/StatisticalVariables/VelocityStat";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->Mode.StatVelocity = ON;
C->varState[var_RmsV] = ON;
C->NvarsAvr_plt3d += 3;
C->varState[var_RmsMeanV] = ON;
C->NvarsAvr_plt3d += 3;
}
else if( !strcasecmp(str.c_str(), "off") )
{
C->Mode.StatVelocity = OFF;
C->varState[var_RmsV] = OFF;
C->varState[var_RmsMeanV] = OFF;
}
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// Statistic for pressure
label="/Output/Data/StatisticalVariables/PressureStat";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->Mode.StatPressure = ON;
C->varState[var_RmsP] = ON;
C->NvarsAvr_plt3d += 1;
C->varState[var_RmsMeanP] = ON;
C->NvarsAvr_plt3d += 1;
}
else if( !strcasecmp(str.c_str(), "off") )
{
C->Mode.StatPressure = OFF;
C->varState[var_RmsP] = OFF;
C->varState[var_RmsMeanP] = OFF;
}
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// Statistic for Reynolds Stress
label="/Output/Data/StatisticalVariables/ReynoldsStress";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->Mode.ReynoldsStress = ON;
}
else if( !strcasecmp(str.c_str(), "off") )
{
C->Mode.ReynoldsStress = OFF;
}
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// チャネル乱流統計量
label="/Output/Data/StatisticalVariables/ChannelOutputMean";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->Mode.ChannelOutputMean = ON;
int iter;
label="/Output/Data/StatisticalVariables/ChannelOutputInterval";
if ( !(tpCntl->getInspectedValue(label, iter )) )
{
Hostonly_ stamped_printf("\tParsing error : Invalid integer value for '%s'\n", label.c_str());
Exit(0);
}
C->Mode.ChannelOutputIter = iter;
}
}
// Statistic for temperature
if ( C->isHeatProblem() )
{
label="/Output/Data/StatisticalVariables/TemperatureStat";
if ( tpCntl->chkLabel(label) )
{
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "on") )
{
C->Mode.StatTemperature = ON;
C->varState[var_RmsT] = ON;
C->NvarsAvr_plt3d += 1;
C->varState[var_RmsMeanT] = ON;
C->NvarsAvr_plt3d += 1;
}
else if( !strcasecmp(str.c_str(), "off") )
{
C->Mode.StatTemperature = OFF;
C->varState[var_RmsT] = OFF;
C->varState[var_RmsMeanT] = OFF;
}
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
}
} // Mode.Statistic
// ボクセルファイル出力 (Hidden)
IO_Voxel = OFF;
label = "/GeometryModel/VoxelOutput";
if ( tpCntl->chkLabel(label) )
{
if ( tpCntl->getInspectedValue(label, str) )
{
if ( !strcasecmp(str.c_str(), "svx") ) IO_Voxel = voxel_SVX;
else if( !strcasecmp(str.c_str(), "bvx") ) IO_Voxel = voxel_BVX;
else if( !strcasecmp(str.c_str(), "off") ) IO_Voxel = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
else
{
Exit(0);
}
}
// BCflag出力 (Hidden)
IO_BCflag = OFF;
if ( IO_Voxel == voxel_BVX )
{
IO_BCflag = ON;
}
// デバッグ用出力 (Hidden)
label="/Output/Data/VTKoption";
if ( tpCntl->chkLabel(label) )
{
if ( tpCntl->getInspectedValue(label, str) )
{
if ( !strcasecmp(str.c_str(), "on") ) output_vtk = ON;
else if( !strcasecmp(str.c_str(), "off") ) output_vtk = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
else
{
Exit(0);
}
}
label="/Output/Data/OutputDebug";
if ( tpCntl->chkLabel(label) )
{
if ( tpCntl->getInspectedValue(label, str) )
{
if ( !strcasecmp(str.c_str(), "on") ) output_debug = ON;
else if( !strcasecmp(str.c_str(), "off") ) output_debug = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
else
{
Exit(0);
}
}
}
// #################################################################
//
void DfiInfo::ReadDfiProc(string fname)
{
TextParser tpCntl;
string str;
string label,label_base,label_leaf;
int ct;
int nnode=0;
int iv[3];
REAL_TYPE v[3];
//入力ファイルをセット
int ierror = tpCntl.read(fname);
if ( ierror )
{
Hostonly_ stamped_printf("\tinput file not found '%s'\n",fname.c_str());
Exit(0);
}
//Domain
//Global_Origin
label = "/Domain/GlobalOrigin";
for (int n=0; n<3; n++) v[n]=0.0;
if ( !(tpCntl.getInspectedVector(label, v, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Global_Origin[0]=v[0];
Global_Origin[1]=v[1];
Global_Origin[2]=v[2];
//Global_Region
label = "/Domain/GlobalRegion";
for (int n=0; n<3; n++) v[n]=0.0;
if ( !(tpCntl.getInspectedVector(label, v, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Global_Region[0]=v[0];
Global_Region[1]=v[1];
Global_Region[2]=v[2];
//Global_Voxel
label = "/Domain/GlobalVoxel";
for (int n=0; n<3; n++) iv[n]=0;
if ( !(tpCntl.getInspectedVector(label, iv, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Global_Voxel[0]=iv[0];
Global_Voxel[1]=iv[1];
Global_Voxel[2]=iv[2];
//Global_Division
label = "/Domain/GlobalDivision";
for (int n=0; n<3; n++) iv[n]=0.0;
if ( !(tpCntl.getInspectedVector(label, iv, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Global_Division[0]=iv[0];
Global_Division[1]=iv[1];
Global_Division[2]=iv[2];
//MPI
//NumberOfRank
label = "/MPI/NumberOfRank";
if ( !(tpCntl.getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
NumberOfRank = ct;
}
//NumberOfGroup
label = "/MPI/NumberOfGroup";
if ( !(tpCntl.getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
NumberOfGroup = ct;
}
////RankID_in_MPIworld
//label = "/DistributedFileInfo/RankIDinMPIworld";
//if ( !(tpCntl.getInspectedValue(label, &ct )) ) {
// Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
// Exit(0);
//}
//else {
// RankID_in_MPIworld = ct;
//}
////GroupID_in_MPIworld
//label = "/DistributedFileInfo/GroupIDinMPIworld";
//if ( !(tpCntl.getInspectedValue(label, &ct )) ) {
// Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
// Exit(0);
//}
//else {
// GroupID_in_MPIworld = ct;
//}
//Process <--- NodeInfo
nnode=0;
//label_base = "/DistributedFileInfo/NodeInfo";
label_base = "/Process";
if ( tpCntl.chkNode(label_base) ) //nodeがあれば
{
nnode = tpCntl.countLabels(label_base);
}
NodeInfoSize=nnode;
Node = new DfiInfo::NodeInfo[nnode];
for (int i=0; i<NodeInfoSize; i++)
{
if ( !(tpCntl.getNodeStr(label_base, i+1, str)) )
{
printf("\tParsing error : No Elem name\n");
Exit(0);
}
if( strcasecmp(str.substr(0,4).c_str(), "Rank") ) continue;
label_leaf=label_base+"/"+str;
//RankID
label = label_leaf + "/ID";
if ( !(tpCntl.getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
Node[i].RankID= ct;
}
//HostName
label = label_leaf + "/HostName";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
Node[i].HostName= str;
//VoxelSize
label = label_leaf + "/VoxelSize";
for (int n=0; n<3; n++) v[n]=0.0;
if ( !(tpCntl.getInspectedVector(label, v, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Node[i].VoxelSize[0]=v[0];
Node[i].VoxelSize[1]=v[1];
Node[i].VoxelSize[2]=v[2];
//HeadIndex
label = label_leaf + "/HeadIndex";
for (int n=0; n<3; n++) v[n]=0.0;
if ( !(tpCntl.getInspectedVector(label, v, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Node[i].HeadIndex[0]=v[0];
Node[i].HeadIndex[1]=v[1];
Node[i].HeadIndex[2]=v[2];
//TailIndex
label = label_leaf + "/TailIndex";
for (int n=0; n<3; n++) v[n]=0.0;
if ( !(tpCntl.getInspectedVector(label, v, 3 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Node[i].TailIndex[0]=v[0];
Node[i].TailIndex[1]=v[1];
Node[i].TailIndex[2]=v[2];
}
//TextParserの破棄
tpCntl.remove();
}
// #################################################################
//
void COMB::ReadInputFile(TextParser* tpCntl)
{
string str;
string label,label_base,label_leaf;
// node数の取得
int nnode=0;
label_base = "/CombData";
if ( tpCntl->chkNode(label_base) ) //nodeがあれば
{
nnode = tpCntl->countLabels(label_base);
}
// dfi_nameの取得
dfi_name.clear();
label_base = "/CombData";
for (int i=0; i<nnode; i++) {
if ( !(tpCntl->getNodeStr(label_base, i+1, str)) )
{
printf("\tParsing error : No Elem name\n");
Exit(0);
}
if( strcasecmp(str.substr(0,4).c_str(), "list") ) continue;
label=label_base+"/"+str;
if ( !(tpCntl->getInspectedValue(label, str )) ) {
printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
dfi_name.push_back(str.c_str());
}
#if 0
cout << "dfi_name.size() = " << dfi_name.size() << endl;
vector<string>::const_iterator it;
for (it = dfi_name.begin(); it != dfi_name.end(); it++) {
cout << "name = " << (*it).c_str() << endl;
}
#endif
//出力ディレクトリの指定 ---> 実行オプションよりこちらが優先される
label = "/CombData/OutputDir";
if ( (tpCntl->getInspectedValue(label, str )) )
{
out_dirname=str;
LOG_OUT_ fprintf(fplog,"\tReset Output Directory '%s'\n", out_dirname.c_str());
STD_OUT_ printf("\tReset Output Directory '%s'\n", out_dirname.c_str());
CheckDir(out_dirname);
if( out_dirname.size() != 0 ) out_dirname=out_dirname+"/";
}
//入力ディレクトリの指定
label = "/CombData/InputDir";
if ( (tpCntl->getInspectedValue(label, str )) )
{
in_dirname=str;
LOG_OUT_ fprintf(fplog,"\tReset Input Directory '%s'\n", in_dirname.c_str());
STD_OUT_ printf("\tReset Input Directory '%s'\n", in_dirname.c_str());
CheckDir(in_dirname);
if( in_dirname.size() != 0 ) in_dirname=in_dirname+"/";
}
//並列実行時のSTAGINGのON/OFF
label = "/CombData/Staging";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
staging = OFF;
}
else
{
if ( !strcasecmp(str.c_str(), "on") ) staging = ON;
else if( !strcasecmp(str.c_str(), "off") ) staging = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
//出力の単精度or倍精度指定 ---> PLOT3Dの場合は、optionに記述があればそちらを優先
label = "/CombData/OutputRealType";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
output_real_type = OUTPUT_REAL_UNKNOWN;
}
if ( !strcasecmp(str.c_str(), "float" ) ) output_real_type = OUTPUT_FLOAT;
else if( !strcasecmp(str.c_str(), "double" ) ) output_real_type = OUTPUT_DOUBLE;
else
{
printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
// 連結ファイルの出力フォーマット
label = "/CombData/OutFormat";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
if ( !strcasecmp(str.c_str(), "sph" ) ) out_format = OUTFORMAT_IS_SPH;
else if( !strcasecmp(str.c_str(), "plot3d" ) ) out_format = OUTFORMAT_IS_PLOT3D;
else if( !strcasecmp(str.c_str(), "avs" ) ) out_format = OUTFORMAT_IS_AVS;
else
{
printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
// PLOT3Dオプションの読み込み
// PLOT3Dfunctions_20131005 if( out_format == OUTFORMAT_IS_PLOT3D ) get_PLOT3D(tpCntl);
// AVSオプションの読み込み
if( out_format == OUTFORMAT_IS_AVS ) get_AVSoptions(tpCntl);
}
// #################################################################
// パラメータをロード
bool IP_Step::getTP(Control* R, TextParser* tpCntl)
{
std::string str;
std::string label;
REAL_TYPE ct;
// 2D or 3D mode
label = "/IntrinsicExample/Dimension";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
if ( !strcasecmp(str.c_str(), "2d") )
{
mode = dim_2d;
}
else if( !strcasecmp(str.c_str(), "3d") )
{
mode = dim_3d;
}
else
{
Hostonly_ stamped_printf("\tParsing error : Invalid '%s'\n", label.c_str());
return false;
}
// 媒質指定
label = "/IntrinsicExample/FluidMedium";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_fluid = str;
label = "/IntrinsicExample/SolidMedium";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_solid = str;
// x-dir step
label = "/IntrinsicExample/StepLength";
if ( !(tpCntl->getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
else
{
width = ( R->Unit.Param == DIMENSIONAL ) ? ct : ct * RefL;
}
// z-dir step
label = "/IntrinsicExample/StepHeight";
if ( !(tpCntl->getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
else
{
height = ( R->Unit.Param == DIMENSIONAL ) ? ct : ct * RefL;
}
return true;
}
// #################################################################
// Cell IDをbvxで出力する
int IO_BASE::writeCellID(const int out_gc)
{
if (IO_Voxel != voxel_BVX) return 0;
unsigned bitWidth = 5;
int rank = paraMngr->GetMyRankID(procGrp);
int ix = size[0];
int jx = size[1];
int kx = size[2];
int gc = out_gc;
int gd = guide;
size_t nx = (ix+2*gc) * (jx+2*gc) * (kx+2*gc);
// unsignd char
u8 *buf = new u8[nx];
// start indexの値 下位5bitの値のみ
u8 val = DECODE_CMP(d_bcd[ _F_IDX_S3D(1-gc, 1-gc, 1-gc, ix, jx, kx, gd) ]);
int c=0;
#pragma omp parallel for firstprivate(ix, jx, kx, gc, gd, val) schedule(static) reduction(+:c)
for (int k=1-gc; k<=kx+gc; k++) {
for (int j=1-gc; j<=jx+gc; j++) {
for (int i=1-gc; i<=ix+gc; i++) {
size_t m0 = _F_IDX_S3D(i, j, k, ix, jx, kx, gd);
size_t m1 = _F_IDX_S3D(i, j, k, ix, jx, kx, gc);
u8 tmp = DECODE_CMP(d_bcd[m0]);
buf[m1] = tmp;
if ( tmp == val ) c++;
}
}
}
bool ret = false;
int ret_val=0;
// サブドメイン内が全て同じ値の時(c==nx)には、CellID配列を書き出さずに戻り値はval
if ( c != nx )
{
ret = BVX_IO::Save_Block_CellID(size, gc, bitWidth, rank, OutDirPath, buf, BVXcomp);
if ( !ret )
{
stamped_printf("\tError : when saving CellID\n");
Exit(0);
}
ret_val = -1;
}
else
{
ret_val = (int)val;
}
if (buf)
{
delete [] buf;
buf = NULL;
}
return ret_val;
}
/**
* @brief VP反復の発散値を計算する
* @param [in] IC IterationCtlクラス
* @retval 発散値の最大の場所のインデクス
*/
FB::Vec3i FFV::Norm_Div(IterationCtl* IC)
{
double nrm;
double flop_count;
REAL_TYPE coef = 1.0/deltaX; /// 発散値を計算するための係数
int index[3];
index[0] = 0;
index[1] = 0;
index[2] = 0;
switch (IC->getNormType())
{
case v_div_max:
TIMING_start(tm_norm_div_max);
flop_count=0.0;
norm_v_div_max_(&nrm, size, &guide, d_dv, &coef, d_bcp, &flop_count);
TIMING_stop(tm_norm_div_max, flop_count);
if ( numProc > 1 )
{
TIMING_start(tm_norm_comm);
double tmp;
tmp = nrm;
if ( paraMngr->Allreduce(&tmp, &nrm, 1, MPI_MAX) != CPM_SUCCESS ) Exit(0); // 最大値
TIMING_stop(tm_norm_comm, 2.0*numProc*sizeof(double) ); // 双方向 x ノード数
}
IC->setNormValue(nrm);
break;
case v_div_dbg:
TIMING_start(tm_poi_itr_sct_5); // >>> Poisson Iteration subsection 5
TIMING_start(tm_norm_div_dbg);
flop_count=0.0;
norm_v_div_dbg_(&nrm, index, size, &guide, d_dv, &coef, d_bcp, &flop_count);
TIMING_stop(tm_norm_div_dbg, flop_count);
//@todo ここで,最大値のグローバルなindexの位置を計算する
if ( numProc > 1 )
{
TIMING_start(tm_norm_comm);
double tmp;
tmp = nrm;
if ( paraMngr->Allreduce(&tmp, &nrm, 1, MPI_MAX) != CPM_SUCCESS ) Exit(0); // 最大値
}
IC->setNormValue(nrm);
TIMING_stop(tm_poi_itr_sct_5, 0.0); // <<< Poisson Iteration subsection 5
break;
default:
stamped_printf("\tInvalid convergence type\n");
Exit(0);
}
FB::Vec3i idx ( index[0], index[1], index[2] );
return idx;
}
// #################################################################
//
void DfiInfo::ReadDfiFile(string fname)
{
TextParser tpCntl;
string str;
string label,label_base,label_leaf;
int ct;
REAL_TYPE ct2;
int nnode=0;
//入力ファイルをセット
int ierror = tpCntl.read(fname);
if ( ierror )
{
Hostonly_ stamped_printf("\tinput file not found '%s'\n",fname.c_str());
Exit(0);
}
//FileInfo
//Prefix
//label = "/DistributedFileInfo/Prefix";
label = "/FileInfo/Prefix";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Prefix=str;
//FileFormat
//label = "/DistributedFileInfo/FileFormat";
label = "/FileInfo/FileFormat";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
FileFormat=str;
//GuideCell
//label = "/DistributedFileInfo/GuideCell";
label = "/FileInfo/GuideCell";
if ( !(tpCntl.getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
GuideCell = ct;
}
//DataType
label = "/FileInfo/DataType";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
DataType=str;
//Endian
label = "/FileInfo/Endian";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Endian=str;
//ArrayShape
label = "/FileInfo/ArrayShape";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
ArrayShape=str;
//Component
label = "/FileInfo/Component";
if ( !(tpCntl.getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
Component = ct;
}
//Unit
//Length
label = "/Unit/Length";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Length=str;
//L0
label = "/Unit/L0";
if ( !(tpCntl.getInspectedValue(label, ct2 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
L0 = ct2;
}
//Velocity
label = "/Unit/Velocity";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Velocity=str;
//V0
label = "/Unit/V0";
if ( !(tpCntl.getInspectedValue(label, ct2 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
V0 = ct2;
}
//Length
label = "/Unit/Pressure";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
Pressure=str;
//P0
label = "/Unit/P0";
if ( !(tpCntl.getInspectedValue(label, ct2 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
P0 = ct2;
}
//DiffPrs
label = "/Unit/DiffPrs";
if ( !(tpCntl.getInspectedValue(label, ct2 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
else {
DiffPrs = ct2;
}
//FilePath
label = "/FilePath/Process";
if ( !(tpCntl.getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
dfi_proc=str;
//read process
ReadDfiProc(dfi_proc);
//TimeSlice
nnode=0;
label_base = "/TimeSlice/Slice";
if ( tpCntl.chkNode(label_base) ) //nodeがあれば
{
nnode = tpCntl.countLabels(label_base);
}
label_base = "/TimeSlice";
for (int i=0; i<nnode; i++)
{
if ( !(tpCntl.getNodeStr(label_base, i+1, str)) )
{
printf("\tParsing error : No Elem name\n");
Exit(0);
}
if( strcasecmp(str.substr(0,5).c_str(), "Slice") ) continue;
//step
label=label_base+"/"+str+"/Step";
if ( !(tpCntl.getInspectedValue(label, ct )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
//time
label=label_base+"/"+str+"/Time";
if ( !(tpCntl.getInspectedValue(label, ct2 )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n",label.c_str());
Exit(0);
}
SetSlice(ct,ct2);
}
//TextParserの破棄
tpCntl.remove();
//内部変数の計算
SetValue();
#if 0
cout << endl;
cout << endl;
//for(int i=0;i<ndfi;i++){
cout << "" << endl;
cout << "Prefix = " << this->Prefix << endl;
//cout << "RankIDinMPIworld = " << this->RankID_in_MPIworld << endl;
//cout << "GroupIDinMPIworld = " << this->GroupID_in_MPIworld << endl;
cout << "NumberOfRankIn = " << this->NumberOfRank << endl;
cout << "NumberOfGroup = " << this->NumberOfGroup << endl;
cout << "GlobalOrigin[0] = " << this->Global_Origin[0] << endl;
cout << "GlobalOrigin[1] = " << this->Global_Origin[1] << endl;
cout << "GlobalOrigin[2] = " << this->Global_Origin[2] << endl;
cout << "GlobalRegion[0] = " << this->Global_Region[0] << endl;
cout << "GlobalRegion[1] = " << this->Global_Region[1] << endl;
cout << "GlobalRegion[2] = " << this->Global_Region[2] << endl;
cout << "GlobalVoxel[0] = " << this->Global_Voxel[0] << endl;
cout << "GlobalVoxel[1] = " << this->Global_Voxel[1] << endl;
cout << "GlobalVoxel[2] = " << this->Global_Voxel[2] << endl;
cout << "GlobalDivision[0] = " << this->Global_Division[0] << endl;
cout << "GlobalDivision[1] = " << this->Global_Division[1] << endl;
cout << "GlobalDivision[2] = " << this->Global_Division[2] << endl;
cout << "FileFormat = " << this->FileFormat << endl;
cout << "GuideCell = " << this->GuideCell << endl;
cout << "" << endl;
cout << "NodeInfoSize = " << this->NodeInfoSize << endl;
for(int j=0; j< this->NodeInfoSize; j++ ) {
cout << "" << endl;
cout << "Node[" << j << "].RankID = " << this->Node[j].RankID << endl;
cout << "Node[" << j << "].HostName = " << this->Node[j].HostName << endl;
cout << "Node[" << j << "].VoxelSize[0] = " << this->Node[j].VoxelSize[0] << endl;
cout << "Node[" << j << "].VoxelSize[1] = " << this->Node[j].VoxelSize[1] << endl;
cout << "Node[" << j << "].VoxelSize[2] = " << this->Node[j].VoxelSize[2] << endl;
cout << "Node[" << j << "].HeadIndex[0] = " << this->Node[j].HeadIndex[0] << endl;
cout << "Node[" << j << "].HeadIndex[1] = " << this->Node[j].HeadIndex[1] << endl;
cout << "Node[" << j << "].HeadIndex[2] = " << this->Node[j].HeadIndex[2] << endl;
cout << "Node[" << j << "].TailIndex[0] = " << this->Node[j].TailIndex[0] << endl;
cout << "Node[" << j << "].TailIndex[1] = " << this->Node[j].TailIndex[1] << endl;
cout << "Node[" << j << "].TailIndex[2] = " << this->Node[j].TailIndex[2] << endl;
cout << "Node[" << j << "].IJK = " << this->Node[j].IJK << endl;
cout << "Node[" << j << "].IJK_JK = " << this->Node[j].IJK_JK << endl;
cout << "Node[" << j << "].IJK_K = " << this->Node[j].IJK_K << endl;
}
cout << "" << endl;
//cout << "step.size() = " << this->step.size() << endl;
//for(int j=0; j< this->step.size(); j++ ) {
// cout << "step[" << j << "] = " << this->step[j] << endl;
//}
cout << "Sc.size() = " << this->Sc.size() << endl;
for(int j=0; j< this->Sc.size(); j++ ) {
cout << "step[" << j << "] = " << this->Sc[j]->step << endl;
cout << "time[" << j << "] = " << this->Sc[j]->time << endl;
}
cout << "" << endl;
cout << "index_y.size() = " << this->index_y.size() << endl;
for(int j=0; j< this->index_y.size(); j++ ) {
cout << "index_y[" << j << "] = " << this->index_y[j] << endl;
}
cout << "" << endl;
cout << "index_z.size() = " << this->index_z.size() << endl;
for(int j=0; j< this->index_z.size(); j++ ) {
cout << "index_z[" << j << "] = " << this->index_z[j] << endl;
}
//}
cout << endl;
cout << endl;
//Exit(0);
#endif
}
// #################################################################
// パラメータをロード
bool IP_Duct::getTP(Control* R, TextParser* tpCntl)
{
std::string str;
std::string label;
REAL_TYPE ct;
// Shape
label="/IntrinsicExample/Shape";
if ( !(tpCntl->getInspectedValue(label, str )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
if ( !strcasecmp(str.c_str(), "circular") ) {
driver.shape = id_circular;
}
else if ( !strcasecmp(str.c_str(), "rectangualr") ) {
driver.shape = id_rectangular;
}
else {
Hostonly_ stamped_printf("\tParsing error : Invalid shape in '%s'\n", label.c_str());
return false;
}
// Diameter
label="/IntrinsicExample/Diameter";
if ( !(tpCntl->getInspectedValue(label, ct )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
else{
driver.diameter = ( R->Unit.Param == DIMENSIONAL ) ? ct : ct * RefL;
}
// periodic
label="/IntrinsicExample/Direction";
if ( !(tpCntl->getInspectedValue(label, str )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
if ( !strcasecmp(str.c_str(), "Xminus")) {
driver.direction = X_minus;
}
else if ( !strcasecmp(str.c_str(), "Xplus")) {
driver.direction = X_plus;
}
else if ( !strcasecmp(str.c_str(), "Yminus")) {
driver.direction = Y_minus;
}
else if ( !strcasecmp(str.c_str(), "Yplus")) {
driver.direction = Y_plus;
}
else if ( !strcasecmp(str.c_str(), "Zminus")) {
driver.direction = Z_minus;
}
else if ( !strcasecmp(str.c_str(), "Zplus")) {
driver.direction = Z_plus;
}
else {
Hostonly_ stamped_printf("\tParsing error : Invalid value of '%s'\n", label.c_str());
return false;
}
// ドライバの設定 値が正の値のとき,有効.ゼロの場合はドライバなし
label="/IntrinsicExample/Driver";
if ( tpCntl->getInspectedValue(label, ct ) ) {
driver.length = ( R->Unit.Param == DIMENSIONAL ) ? ct : ct * RefL;
}
else {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
if ( driver.length < 0.0 ) {
Hostonly_ stamped_printf("\tError : Value of 'Driver' must be positive.\n");
return false;
}
// 媒質指定
label="/IntrinsicExample/FluidMedium";
if ( !(tpCntl->getInspectedValue(label, str )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_fluid = str;
label="/IntrinsicExample/SolidMedium";
if ( !(tpCntl->getInspectedValue(label, str )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_solid = str;
label="/IntrinsicExample/DriverMedium";
if ( !(tpCntl->getInspectedValue(label, str )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_driver = str;
label="/IntrinsicExample/DriverFaceMedium";
if ( !(tpCntl->getInspectedValue(label, str )) ) {
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
return false;
}
m_driver_face = str;
return true;
}
// #################################################################
//
void LAYOUT::ReadInputFile(TextParser* tpCntl)
{
string str,buff;
string label,label_base,label_leaf;
// node数の取得
int nnode=0;
label_base = "/LayoutData";
if ( tpCntl->chkNode(label_base) ) //nodeがあれば
{
nnode = tpCntl->countLabels(label_base);
}
// dfi_nameの取得
dfi_name.clear();
for (int i=0; i<nnode; i++) {
if ( !(tpCntl->getNodeStr(label_base, i+1, str)) )
{
printf("\tParsing error : No Elem name\n");
Exit(0);
}
if( strcasecmp(str.substr(0,4).c_str(), "list") ) continue;
label=label_base+"/"+str;
if ( !(tpCntl->getInspectedValue(label, buff )) ) {
printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
//FList[ilist].name = str;
dfi_name.push_back(buff.c_str());
}
#if 0
cout << "dfi_name.size() = " << dfi_name.size() << endl;
vector<string>::const_iterator it;
for (it = dfi_name.begin(); it != dfi_name.end(); it++) {
cout << "name = " << (*it).c_str() << endl;
}
#endif
// dfi_nameの取得
mname.clear();
dname.clear();
rankis.clear();
rankie.clear();
label_base = "/LayoutData";
for (int i=0; i<nnode; i++) {
if ( !(tpCntl->getNodeStr(label_base, i+1, str)) )
{
printf("\tParsing error : No Elem name\n");
Exit(0);
}
if( strcasecmp(str.substr(0,6).c_str(), "divide") ) continue;
label=label_base+"/"+str+"/machine";
if ( !(tpCntl->getInspectedValue(label, buff )) ) {
printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
mname.push_back(buff.c_str());
label=label_base+"/"+str+"/rank";
int v[2];
for (int n=0; n<2; n++) v[n]=0;
if ( !(tpCntl->getInspectedVector(label, v, 2)) ) {
printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
rankis.push_back(v[0]);
rankie.push_back(v[1]);
label=label_base+"/"+str+"/dir";
if ( !(tpCntl->getInspectedValue(label, buff )) ) {
printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
dname.push_back(buff.c_str());
}
//出力ディレクトリの指定 ---> 実行オプションよりこちらが優先される
label = "/LayoutData/OutputDir";
if ( (tpCntl->getInspectedValue(label, str )) )
{
dirname=str;
CheckDir(dirname);
if( dirname.size() != 0 ) dirname=dirname+"/";
}
// DivideFunc ---> 出力を項目別にファイル分割するオプション
label = "/LayoutData/FFVDivideFunc";
if ( !(tpCntl->getInspectedValue(label, str )) )
{
Hostonly_ stamped_printf("\tParsing error : fail to get '%s'\n", label.c_str());
Exit(0);
}
else
{
if ( !strcasecmp(str.c_str(), "on") ) IS_DivideFunc = ON;
else if( !strcasecmp(str.c_str(), "off") ) IS_DivideFunc = OFF;
else
{
Hostonly_ stamped_printf("\tInvalid keyword is described for '%s'\n", label.c_str());
Exit(0);
}
}
// FileNameGrid --- option
label = "/LayoutData/Plot3dOptions/FileNameGrid";
if ( !(tpCntl->getInspectedValue(label, str)) )
{
basename_g = "PLOT3DoutputGrid";
}
else
{
basename_g = str;
}
if ( basename_g.empty() )
{
basename_g = "PLOT3DoutputGrid";
}
// FileNameFunc --- option
label = "/LayoutData/Plot3dOptions/FileNameFunc";
if ( !(tpCntl->getInspectedValue(label, str)) )
{
basename_f = "PLOT3Doutput";
}
else
{
basename_f = str;
}
if ( basename_f.empty() )
{
basename_f = "PLOT3Doutput";
}
}
