/*!\file ControlInput.c * \brief: implementation of the ControlInput object */ #ifdef HAVE_CONFIG_H #include "config.h" #else #error "Cannot compile with HAVE_CONFIG_H symbol! run configure first!" #endif #include "stdio.h" #include #include "../objects.h" #include "../../EnumDefinitions/EnumDefinitions.h" #include "../../shared/shared.h" #include "../../Container/Container.h" #include "../../include/include.h" /*ControlInput constructors and destructor*/ /*FUNCTION ControlInput::ControlInput(){{{1*/ ControlInput::ControlInput(){ control_id = 0; values = NULL; savedvalues = NULL; minvalues = NULL; maxvalues = NULL; gradient = NULL; } /*}}}*/ /*FUNCTION ControlInput::ControlInput(int enum_type,int enum_input,double* pvalues,double* pmin,double* pmax,int id){{{1*/ ControlInput::ControlInput(int in_enum_type,int enum_input,double* pvalues,double* pmin,double* pmax,int id){ control_id=id; enum_type=in_enum_type; switch(enum_input){ case TriaVertexInputEnum: values =new TriaVertexInput(enum_type,pvalues); savedvalues=new TriaVertexInput(enum_type,pvalues); minvalues =new TriaVertexInput(enum_type,pmin); maxvalues =new TriaVertexInput(enum_type,pmax); break; case PentaVertexInputEnum: values =new PentaVertexInput(enum_type,pvalues); savedvalues=new PentaVertexInput(enum_type,pvalues); minvalues =new PentaVertexInput(enum_type,pmin); maxvalues =new PentaVertexInput(enum_type,pmax); break; default: _error_("Input of Enum %s not supported yet by ControlInput",EnumToStringx(enum_input)); } gradient =NULL; } /*}}}*/ /*FUNCTION ControlInput::~ControlInput(){{{1*/ ControlInput::~ControlInput(){ delete values; delete savedvalues; delete minvalues; delete maxvalues; delete gradient; } /*}}}*/ /*Object virtual functions definitions:*/ /*FUNCTION ControlInput::Echo {{{1*/ void ControlInput::Echo(void){ this->DeepEcho(); } /*}}}*/ /*FUNCTION ControlInput::DeepEcho{{{1*/ void ControlInput::DeepEcho(void){ printf("ControlInput:\n"); printf(" enum: %i (%s)\n",this->enum_type,EnumToStringx(this->enum_type)); printf("---values: \n"); if (values) values->Echo(); printf("---savedvalues: \n");if (savedvalues) savedvalues->Echo(); printf("---minvalues: \n"); if (minvalues) minvalues->Echo(); printf("---maxvalues: \n"); if (maxvalues) maxvalues->Echo(); printf("---gradient: \n"); if (gradient) gradient->Echo(); } /*}}}*/ /*FUNCTION ControlInput::Id{{{1*/ int ControlInput::Id(void){ return -1; } /*}}}*/ /*FUNCTION ControlInput::MyRank{{{1*/ int ControlInput::MyRank(void){ extern int my_rank; return my_rank; } /*}}}*/ /*FUNCTION ControlInput::Marshall{{{1*/ void ControlInput::Marshall(char** pmarshalled_dataset){ char* marshalled_dataset=NULL; int enum_value=0; int flag; /*recover marshalled_dataset: */ marshalled_dataset=*pmarshalled_dataset; /*get enum value of ControlInput: */ enum_value=ControlInputEnum; /*marshall enum: */ memcpy(marshalled_dataset,&enum_value,sizeof(enum_value));marshalled_dataset+=sizeof(enum_value); /*marshall enum_type: */ memcpy(marshalled_dataset,&enum_type,sizeof(enum_type));marshalled_dataset+=sizeof(enum_type); memcpy(marshalled_dataset,&control_id,sizeof(control_id));marshalled_dataset+=sizeof(control_id); /*marshal values*/ if(!values){ flag=0; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); } else{ flag=1; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); this->values->Marshall(&marshalled_dataset); } /*marshal savedvalues*/ if(!savedvalues){ flag=0; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); } else{ flag=1; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); this->savedvalues->Marshall(&marshalled_dataset); } /*marshal minvalues*/ if(!minvalues){ flag=0; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); } else{ flag=1; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); this->minvalues->Marshall(&marshalled_dataset); } /*marshal maxvalues*/ if(!maxvalues){ flag=0; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); } else{ flag=1; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); this->maxvalues->Marshall(&marshalled_dataset); } /*marshal gradient*/ if(!gradient){ flag=0; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); } else{ flag=1; memcpy(marshalled_dataset,&flag,sizeof(flag));marshalled_dataset+=sizeof(flag); this->gradient->Marshall(&marshalled_dataset); } /*clean up and assign output pointer*/ *pmarshalled_dataset=marshalled_dataset; } /*}}}*/ /*FUNCTION ControlInput::MarshallSize{{{1*/ int ControlInput::MarshallSize(){ int size=0; size=sizeof(enum_type)+ +sizeof(control_id) +5*sizeof(int) //5 flags +sizeof(int); //sizeof(int) for enum value if(values) size+=values->MarshallSize(); if(savedvalues)size+=savedvalues->MarshallSize(); if(minvalues)size+=minvalues->MarshallSize(); if(maxvalues)size+=maxvalues->MarshallSize(); if(gradient) size+=gradient->MarshallSize(); return size; } /*}}}*/ /*FUNCTION ControlInput::Demarshall{{{1*/ void ControlInput::Demarshall(char** pmarshalled_dataset){ char* marshalled_dataset=NULL; int flag,input_enum_type; /*recover marshalled_dataset: */ marshalled_dataset=*pmarshalled_dataset; /*this time, no need to get enum type, the pointer directly points to the beginning of the *object data (thanks to DataSet::Demarshall):*/ memcpy(&enum_type,marshalled_dataset,sizeof(enum_type));marshalled_dataset+=sizeof(enum_type); memcpy(&control_id,marshalled_dataset,sizeof(control_id));marshalled_dataset+=sizeof(control_id); /*Demarshal values*/ memcpy(&flag,marshalled_dataset,sizeof(int));marshalled_dataset+=sizeof(int); if(flag){ memcpy(&input_enum_type,marshalled_dataset,sizeof(int)); marshalled_dataset+=sizeof(int); if(input_enum_type==PentaVertexInputEnum){ values=new PentaVertexInput(); values->Demarshall(&marshalled_dataset); } else if(input_enum_type==TriaVertexInputEnum){ values=new TriaVertexInput(); values->Demarshall(&marshalled_dataset); } else _error_("Not supported yet"); } else{ values=NULL; } /*Demarshal savedvalues*/ memcpy(&flag,marshalled_dataset,sizeof(int));marshalled_dataset+=sizeof(int); if(flag){ memcpy(&input_enum_type,marshalled_dataset,sizeof(int)); marshalled_dataset+=sizeof(int); if(input_enum_type==PentaVertexInputEnum){ savedvalues=new PentaVertexInput(); savedvalues->Demarshall(&marshalled_dataset); } else if(input_enum_type==TriaVertexInputEnum){ savedvalues=new TriaVertexInput(); savedvalues->Demarshall(&marshalled_dataset); } else _error_("Not supported yet"); } else{ savedvalues=NULL; } /*Demarshal minvalues*/ memcpy(&flag,marshalled_dataset,sizeof(int));marshalled_dataset+=sizeof(int); if(flag){ memcpy(&input_enum_type,marshalled_dataset,sizeof(int)); marshalled_dataset+=sizeof(int); if(input_enum_type==PentaVertexInputEnum){ minvalues=new PentaVertexInput(); minvalues->Demarshall(&marshalled_dataset); } else if(input_enum_type==TriaVertexInputEnum){ minvalues=new TriaVertexInput(); minvalues->Demarshall(&marshalled_dataset); } else _error_("Not supported yet"); } else{ minvalues=NULL; } /*Demarshal maxvalues*/ memcpy(&flag,marshalled_dataset,sizeof(int));marshalled_dataset+=sizeof(int); if(flag){ memcpy(&input_enum_type,marshalled_dataset,sizeof(int)); marshalled_dataset+=sizeof(int); if(input_enum_type==PentaVertexInputEnum){ maxvalues=new PentaVertexInput(); maxvalues->Demarshall(&marshalled_dataset); } else if(input_enum_type==TriaVertexInputEnum){ maxvalues=new TriaVertexInput(); maxvalues->Demarshall(&marshalled_dataset); } else _error_("Not supported yet"); } else{ maxvalues=NULL; } /*Demarshal gradient*/ memcpy(&flag,marshalled_dataset,sizeof(int));marshalled_dataset+=sizeof(int); if(flag){ memcpy(&input_enum_type,marshalled_dataset,sizeof(int)); marshalled_dataset+=sizeof(int); if(input_enum_type==PentaVertexInputEnum){ gradient=new PentaVertexInput(); gradient->Demarshall(&marshalled_dataset); } else if(input_enum_type==TriaVertexInputEnum){ gradient=new TriaVertexInput(); gradient->Demarshall(&marshalled_dataset); } else _error_("Not supported yet"); } else{ gradient=NULL; } /*return: */ *pmarshalled_dataset=marshalled_dataset; return; } /*}}}*/ /*FUNCTION ControlInput::Enum{{{1*/ int ControlInput::Enum(void){ return ControlInputEnum; } /*}}}*/ /*FUNCTION ControlInput::copy{{{1*/ Object* ControlInput::copy() { ControlInput* output=NULL; output = new ControlInput(); output->enum_type=this->enum_type; output->control_id=this->control_id; if(values) output->values=(Input*)this->values->copy(); if(savedvalues) output->savedvalues=(Input*)this->savedvalues->copy(); if(minvalues) output->minvalues=(Input*)this->minvalues->copy(); if(maxvalues) output->maxvalues=(Input*)this->maxvalues->copy(); if(gradient) output->gradient=(Input*)this->gradient->copy(); return output; } /*}}}*/ /*ControlInput management*/ /*FUNCTION ControlInput::EnumType{{{1*/ int ControlInput::EnumType(void){ return this->enum_type; } /*}}}*/ /*Object functions*/ /*FUNCTION ControlInput::Constrain(){{{1*/ void ControlInput::Constrain(void){ Input* newvalues=NULL; newvalues=this->values->PointwiseMin(maxvalues); delete values; this->values=newvalues; newvalues=this->values->PointwiseMax(minvalues); delete values; this->values=newvalues; }/*}}}*/ /*FUNCTION ControlInput::Constrain(double min, double max){{{1*/ void ControlInput::Constrain(double min, double max){ values->Constrain(min,max); }/*}}}*/ /*FUNCTION ControlInput::Extrude{{{1*/ void ControlInput::Extrude(void){ values->Extrude(); savedvalues->Extrude(); //gradient->Extrude(); }/*}}}*/ /*FUNCTION ControlInput::GetGradient{{{1*/ void ControlInput::GetGradient(Vec gradient_vec,int* doflist){ if(gradient) gradient->GetVectorFromInputs(gradient_vec,doflist); }/*}}}*/ /*FUNCTION ControlInput::ScaleGradient{{{1*/ void ControlInput::ScaleGradient(double scaling_factor){ if(!gradient) _error_("Gradient of ControlInput %s not found",EnumToStringx(enum_type)); gradient->Scale(scaling_factor); }/*}}}*/ /*FUNCTION ControlInput::SetGradient{{{1*/ void ControlInput::SetGradient(Input* gradient_in){ /*Get enum for current gradient*/ switch(this->control_id){ case 1: gradient_in->ChangeEnum(Gradient1Enum); break; case 2: gradient_in->ChangeEnum(Gradient2Enum); break; case 3: gradient_in->ChangeEnum(Gradient3Enum); break; default: _error_("more than 3 controls not implemented yet (Gradient %i was requested). EnumDefinitions.h needs to be updated.",this->control_id); } /*Delete old gradient and assign new gradient*/ if(gradient) delete gradient; gradient=gradient_in; }/*}}}*/ /*FUNCTION ControlInput::SpawnResult{{{1*/ ElementResult* ControlInput::SpawnResult(int step, double time){ return savedvalues->SpawnResult(step,time); }/*}}}*/ /*FUNCTION ControlInput::SpawnTriaInput{{{1*/ Input* ControlInput::SpawnTriaInput(int* indices){ return values->SpawnTriaInput(indices); }/*}}}*/ /*FUNCTION ControlInput::SpawnGradient{{{1*/ ElementResult* ControlInput::SpawnGradient(int step, double time){ return gradient->SpawnResult(step,time); }/*}}}*/ /*FUNCTION ControlInput::GetParameterAverage(double* pvalue){{{1*/ void ControlInput::GetParameterAverage(double* pvalue){ values->GetParameterAverage(pvalue); }/*}}}*/ /*FUNCTION ControlInput::GetParameterValue(bool* pvalue){{{1*/ void ControlInput::GetParameterValue(bool* pvalue){ values->GetParameterValue(pvalue); }/*}}}*/ /*FUNCTION ControlInput::GetParameterValue(int* pvalue){{{1*/ void ControlInput::GetParameterValue(int* pvalue){ values->GetParameterValue(pvalue); }/*}}}*/ /*FUNCTION ControlInput::GetParameterValue(double* pvalue){{{1*/ void ControlInput::GetParameterValue(double* pvalue){ values->GetParameterValue(pvalue); }/*}}}*/ /*FUNCTION ControlInput::GetParameterValue(double* pvalue){{{1*/ void ControlInput::GetParameterValue(double* pvalue,GaussTria* gauss){ values->GetParameterValue(pvalue,gauss); }/*}}}*/ /*FUNCTION ControlInput::GetParameterValue(double* pvalue){{{1*/ void ControlInput::GetParameterValue(double* pvalue,GaussPenta* gauss){ values->GetParameterValue(pvalue,gauss); }/*}}}*/ /*FUNCTION ControlInput::GetParameterDerivativeValue(double* derivativevalues, double* xyz_list, GaussTria* gauss){{{1*/ void ControlInput::GetParameterDerivativeValue(double* derivativevalues, double* xyz_list, GaussTria* gauss){ values->GetParameterDerivativeValue(derivativevalues,xyz_list,gauss); }/*}}}*/ /*FUNCTION ControlInput::GetParameterDerivativeValue(double* derivativevalues, double* xyz_list, GaussPenta* gauss){{{1*/ void ControlInput::GetParameterDerivativeValue(double* derivativevalues, double* xyz_list, GaussPenta* gauss){ values->GetParameterDerivativeValue(derivativevalues,xyz_list,gauss); }/*}}}*/ /*FUNCTION ControlInput::SaveValue{{{1*/ void ControlInput::SaveValue(void){ if(!values) _error_("Values of %s not found",EnumToStringx(this->enum_type)); if(savedvalues) delete this->savedvalues; this->savedvalues=(Input*)this->values->copy(); }/*}}}*/ /*FUNCTION ControlInput::UpdateValue{{{1*/ void ControlInput::UpdateValue(double scalar){ if(!gradient) _error_("Gradient of %s not found",EnumToStringx(this->enum_type)); if(!savedvalues) _error_("Values of %s not found",EnumToStringx(this->enum_type)); if(values) delete this->values; this->values=(Input*)this->savedvalues->copy(); this->values->AXPY(gradient,scalar); }/*}}}*/ /*FUNCTION ControlInput::VerticallyIntegrate{{{1*/ void ControlInput::VerticallyIntegrate(Input* thickness_input){ values->VerticallyIntegrate(thickness_input); }/*}}}*/