//===== // Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost) //===== #include "bbstdMathOperation.h" #include "bbstdPackage.h" #include #include #include namespace bbstd { BBTK_ADD_BLACK_BOX_TO_PACKAGE(std,MathOperation) BBTK_BLACK_BOX_IMPLEMENTATION(MathOperation,bbtk::AtomicBlackBox); //===== // Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost) //===== void MathOperation::Process() { // THE MAIN PROCESSING METHOD BODY // Here we simply set the input 'In' value to the output 'Out' // And print out the output value // INPUT/OUTPUT ACCESSORS ARE OF THE FORM : // void bbSet{Input|Output}NAME(const TYPE&) // const TYPE& bbGet{Input|Output}NAME() const // Where : // * NAME is the name of the input/output // (the one provided in the attribute 'name' of the tag 'input') // * TYPE is the C++ type of the input/output // (the one provided in the attribute 'type' of the tag 'input') if (firsttime==true) { firsttime=false; /* initialize random seed: */ srand (time(NULL)); if (bbGetInputType()==7) acum=bbGetInputIn1(); } if (bbGetInputType()==0) bbSetOutputOut( bbGetInputIn1() + bbGetInputIn2() ); if (bbGetInputType()==1) bbSetOutputOut( bbGetInputIn1() - bbGetInputIn2() ); if (bbGetInputType()==2) bbSetOutputOut( bbGetInputIn1() * bbGetInputIn2() ); if (bbGetInputType()==3) { if (bbGetInputIn2()!=0) bbSetOutputOut( bbGetInputIn1() / bbGetInputIn2() ); else bbSetOutputOut( 99999999 ); } if (bbGetInputType()==4) bbSetOutputOut( sqrt( bbGetInputIn1() ) ); if (bbGetInputType()==5) { if (bbGetInputIn1()>0) bbSetOutputOut( log( bbGetInputIn1() ) ); else bbSetOutputOut( -99999999 ); } if (bbGetInputType()==6) bbSetOutputOut( exp( bbGetInputIn1() ) ); if (bbGetInputType()==7) { bbSetOutputOut( acum ); acum++; if (acum>bbGetInputIn2()) acum=bbGetInputIn1(); } if (bbGetInputType()==8 ) bbSetOutputOut( rand() % (int) (bbGetInputIn2()-bbGetInputIn1()) + bbGetInputIn1() ); if (bbGetInputType()==9 ) bbSetOutputOut( sin( bbGetInputIn1() ) ); if (bbGetInputType()==10) bbSetOutputOut( cos( bbGetInputIn1() ) ); if (bbGetInputType()==11) bbSetOutputOut( tan( bbGetInputIn1() ) ); if (bbGetInputType()==12) bbSetOutputOut( asin( bbGetInputIn1() ) ); if (bbGetInputType()==13) bbSetOutputOut( acos( bbGetInputIn1() ) ); if (bbGetInputType()==14) bbSetOutputOut( atan( bbGetInputIn1() ) ); if (bbGetInputType()==15) bbSetOutputOut( atan2( bbGetInputIn1(),bbGetInputIn2() ) ); if (bbGetInputType()==16) bbSetOutputOut( std::min( bbGetInputIn1(),bbGetInputIn2() ) ); if (bbGetInputType()==17) bbSetOutputOut( std::max( bbGetInputIn1(),bbGetInputIn2() ) ); if (bbGetInputType()==18) bbSetOutputOut( fabs( bbGetInputIn1() ) ); } //===== // Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost) //===== void MathOperation::bbUserSetDefaultValues() { // SET HERE THE DEFAULT INPUT/OUTPUT VALUES OF YOUR BOX // Here we initialize the input 'In' to 0 bbSetInputIn1(0); bbSetInputIn2(0); bbSetInputType(0); firsttime=true; acum=0; } //===== // Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost) //===== void MathOperation::bbUserInitializeProcessing() { // THE INITIALIZATION METHOD BODY : // Here does nothing // but this is where you should allocate the internal/output pointers // if any } //===== // Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost) //===== void MathOperation::bbUserFinalizeProcessing() { // THE FINALIZATION METHOD BODY : // Here does nothing // but this is where you should desallocate the internal/output pointers // if any } }// EO namespace bbstd