// Copyright (C) 2007-2010 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // File : StdMeshersGUI_DistrPreview.cxx // Author : Open CASCADE S.A.S. // SMESH includes // #include "StdMeshersGUI_DistrPreview.h" // Qwt includes #include #include #include #include #include // OCCT includes #include #include #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 #define NO_CAS_CATCH #endif #include #ifdef NO_CAS_CATCH #include #endif #ifdef WIN32 # include #endif #include #include #include StdMeshersGUI_DistrPreview::StdMeshersGUI_DistrPreview( QWidget* p, StdMeshers::StdMeshers_NumberOfSegments_ptr h ) : QwtPlot( p ), myPoints( 50 ), myIsTable( false ), myVars( 1, 1 ), myValues( 1, 1 ), myConv( CUT_NEGATIVE ), myIsDone( true ), myNbSeg( 1 ) { Kernel_Utils::Localizer loc; myHypo = StdMeshers::StdMeshers_NumberOfSegments::_duplicate( h ); myVars.ChangeValue( 1 ) = new Expr_NamedUnknown( "t" ); myDensity = new QwtPlotCurve( QString() ); myDensity->attach( this ); myDistr = new QwtPlotCurve( QString() ); myDistr->attach( this ); myMsg = new QwtPlotMarker(); myMsg->attach( this ); myMsg->setValue( 0.5, 0.5 ); QwtText mt = myMsg->label(); mt.setBackgroundPen( QPen( Qt::red, 1 ) ); QFont f = mt.font(); f.setPointSize( 14 ); f.setBold( true ); mt.setFont( f ); myMsg->setLabel( mt ); myDensity->setPen( QPen( Qt::red, 1 ) ); QColor dc = Qt::blue; myDistr->setPen( QPen( dc, 1 ) ); myDistr->setSymbol( QwtSymbol( QwtSymbol::XCross, QBrush( dc ), QPen( dc ), QSize( 5, 5 ) ) ); QwtLegend* l = legend(); if ( !l ) { l = new QwtLegend( this ); l->setFrameStyle( QFrame::Box | QFrame::Sunken ); } insertLegend( l, QwtPlot::BottomLegend ); myDensity->setTitle( tr( "SMESH_DENSITY_FUNC" ) ); myDistr->setTitle( tr( "SMESH_DISTR" ) ); QwtPlotGrid* aGrid = new QwtPlotGrid(); QPen aMajPen = aGrid->majPen(); aMajPen.setStyle( Qt::DashLine ); aGrid->setPen( aMajPen ); aGrid->enableX( true ); aGrid->enableY( true ); aGrid->attach( this ); } StdMeshersGUI_DistrPreview::~StdMeshersGUI_DistrPreview() { } bool StdMeshersGUI_DistrPreview::isTableFunc() const { return myIsTable; } void StdMeshersGUI_DistrPreview::tableFunc( SMESH::double_array& f ) const { f = myTableFunc; } QString StdMeshersGUI_DistrPreview::function() const { return myFunction; } int StdMeshersGUI_DistrPreview::nbSeg() const { return myNbSeg; } int StdMeshersGUI_DistrPreview::pointsCount() const { return myPoints; } void StdMeshersGUI_DistrPreview::setConversion( Conversion conv, const bool upd ) { myConv = conv; if( upd ) update(); } bool StdMeshersGUI_DistrPreview::setParams( const QString& func, const int nbSeg, const int points, const bool upd ) { myIsTable = false; myTableFunc = SMESH::double_array(); myFunction = func.isEmpty() ? "0" : func; myPoints = points>0 ? points : 2; myNbSeg = nbSeg>0 ? nbSeg : 1; bool res = init( func ); if( upd ) update(); return res; } bool StdMeshersGUI_DistrPreview::setParams( const SMESH::double_array& f, const int nbSeg, const bool upd ) { myIsTable = true; myTableFunc = f; if( myTableFunc.length()%2==1 ) myTableFunc.length( myTableFunc.length()-1 ); myFunction = "0"; myPoints = myTableFunc.length()/2; myNbSeg = nbSeg>0 ? nbSeg : 1; if( upd ) update(); return myTableFunc.length()>0; } bool StdMeshersGUI_DistrPreview::createTable( SMESH::double_array& func ) { if( myExpr.IsNull() ) { func.length( 0 ); return false; } const double xmin = 0.0, xmax = 1.0; double d = (xmax-xmin)/double(myPoints-1); func.length( 2*myPoints ); int err = 0; for( int i=0, j=0; i=2 ) { StdMeshers::StdMeshers_NumberOfSegments_var h = StdMeshers::StdMeshers_NumberOfSegments::_narrow( myHypo ); if( !CORBA::is_nil( h.in() ) ) { SMESH::double_array* arr = 0; if( isTableFunc() ) arr = h->BuildDistributionTab( myTableFunc, myNbSeg, ( int )myConv ); else arr = h->BuildDistributionExpr( myFunction.toLatin1().data(), myNbSeg, ( int )myConv ); if( arr ) { distr = *arr; delete arr; } } } bool correct = graph.length()>=2 && distr.length()>=2; if( !correct ) { showError(); return; } else { QwtText mt = myMsg->label(); mt.setText( QString() ); myMsg->setLabel( mt ); } int size = graph.length()/2; double* x = new double[size], *y = new double[size]; double min_x, max_x, min_y, max_y; for( int i=0; i= HUGE_VAL) y[i] = HUGE_VAL/100.; #else if ( isinf(y[i])) y[i] = std::numeric_limits::max()/100.; #endif // if ( y[i] > 1e3 ) // y[i] = 1e3; if( i==0 || y[i]max_y ) max_y = y[i]; if( i==0 || x[i]max_x ) max_x = x[i]; } setAxisScale( myDensity->xAxis(), min_x, max_x ); setAxisScale( myDensity->yAxis(), #ifdef WIN32 min( 0.0, min_y ), max( 0.0, max_y ) #else std::min( 0.0, min_y ), std::max( 0.0, max_y ) #endif ); myDensity->setData( x, y, size ); if( x ) delete[] x; if( y ) delete[] y; x = y = 0; size = distr.length(); x = new double[size]; y = new double[size]; for( int i=0; isetData( x, y, size ); delete[] x; delete[] y; x = y = 0; try { #ifdef NO_CAS_CATCH OCC_CATCH_SIGNALS; #endif replot(); } catch(Standard_Failure) { Handle(Standard_Failure) aFail = Standard_Failure::Caught(); } } void StdMeshersGUI_DistrPreview::showError() { setAxisScale( myDensity->xAxis(), 0.0, 1.0 ); setAxisScale( myDensity->yAxis(), 0.0, 1.0 ); myDensity->setData( 0, 0, 0 ); myDistr->setData( 0, 0, 0 ); QwtText mt = myMsg->label(); mt.setText( tr( "SMESH_INVALID_FUNCTION" ) ); myMsg->setLabel( mt ); replot(); } bool isCorrectArg( const Handle( Expr_GeneralExpression )& expr ) { Handle( Expr_NamedUnknown ) sub = Handle( Expr_NamedUnknown )::DownCast( expr ); if( !sub.IsNull() ) return sub->GetName()=="t"; bool res = true; for( int i=1, n=expr->NbSubExpressions(); i<=n && res; i++ ) { Handle( Expr_GeneralExpression ) sub = expr->SubExpression( i ); Handle( Expr_NamedUnknown ) name = Handle( Expr_NamedUnknown )::DownCast( sub ); if( !name.IsNull() ) { if( name->GetName()!="t" ) res = false; } else res = isCorrectArg( sub ); } return res; } bool StdMeshersGUI_DistrPreview::init( const QString& str ) { Kernel_Utils::Localizer loc; bool parsed_ok = true; try { #ifdef NO_CAS_CATCH OCC_CATCH_SIGNALS; #endif myExpr = ExprIntrp_GenExp::Create(); myExpr->Process( ( Standard_CString ) str.toLatin1().data() ); } catch(Standard_Failure) { Handle(Standard_Failure) aFail = Standard_Failure::Caught(); parsed_ok = false; } bool syntax = false, args = false; if( parsed_ok && myExpr->IsDone() ) { syntax = true; args = isCorrectArg( myExpr->Expression() ); } bool res = parsed_ok && syntax && args; if( !res ) myExpr.Nullify(); return res; } double StdMeshersGUI_DistrPreview::funcValue( const double t, bool& ok ) { if( myExpr.IsNull() ) return 0; myValues.ChangeValue( 1 ) = t; ok = true; double res = calc( ok ); return res; } double StdMeshersGUI_DistrPreview::calc( bool& ok ) { double res = 0.0; ok = true; try { #ifdef NO_CAS_CATCH OCC_CATCH_SIGNALS; #endif res = myExpr->Expression()->Evaluate( myVars, myValues ); } catch(Standard_Failure) { Handle(Standard_Failure) aFail = Standard_Failure::Caught(); ok = false; res = 0.0; } return res; } bool StdMeshersGUI_DistrPreview::isDone() const { return myIsDone; } bool StdMeshersGUI_DistrPreview::convert( double& v ) const { bool ok = true; switch( myConv ) { case EXPONENT: { try { #ifdef NO_CAS_CATCH OCC_CATCH_SIGNALS; #endif // in StdMeshers_NumberOfSegments.cc // const double PRECISION = 1e-7; // if(v < -7) v = -7.0; v = pow( 10.0, v ); } catch(Standard_Failure) { Handle(Standard_Failure) aFail = Standard_Failure::Caught(); v = 0.0; ok = false; } } break; case CUT_NEGATIVE: if( v<0 ) v = 0; break; } return ok; }