pattern comput done

[blast.git] / GroupBlock.cpp

#include "GroupBlock.h"
#include "BlockParameterGeneric.h"
#include "AbstractInterface.h"
#include "ConnectedInterface.h"
#include "string.h"
#include <sstream>

int GroupBlock::counter = 1;

GroupBlock::GroupBlock(GroupBlock *_parent) throw(Exception) :  AbstractBlock() {

  // force topGroup to false if this group has a parent
  if (_parent != NULL) {    
    topGroup = false;
    name = QString("sub_group")+"_"+QString::number(counter++);
  }
  else {
    topGroup = true;
    name = QString("top_group");
  }
  parent = _parent;
  if (parent != NULL) {
    // adding this to the child blocks of parent
    AB_TO_GRP(parent)->addBlock(this);
  }
}

GroupBlock::~GroupBlock() {
  foreach(AbstractBlock* block, blocks) {
    delete block;
  }
}

bool GroupBlock::isGroupBlock() {
  return true;
}

bool GroupBlock::isTopGroupBlock() {
  return topGroup;
}

void GroupBlock::setParent(AbstractBlock *_parent) {
  parent = _parent;
  if (parent != NULL) {
    topGroup = false;
  }
}

void GroupBlock::removeAllBlocks() {
  foreach(AbstractBlock* block, blocks) {
    if (block->isGroupBlock()) {
      GroupBlock* group = AB_TO_GRP(block);
      group->removeAllBlocks();
    }
    removeBlock(block);
  }
}

void GroupBlock::removeBlock(AbstractBlock* block) {
  /* CAUTION: no check is done if the block has connected interface
     or not. Thus, they must be deleted elsewhere.
  */
  blocks.removeAll(block);
  delete block;
}

AbstractBlock *GroupBlock::getFunctionalBlockByName(QString name) {
  foreach(AbstractBlock* block, blocks) {
    if (block->isFunctionalBlock()) {
      if (block->getName() == name) return block;
    }
  }
  return NULL;
}

void GroupBlock::parametersValidation(QList<AbstractBlock *> *checkedBlocks, QList<AbstractBlock *> *blocksToConfigure) {

  /*
  checkedBlocks->append(this);

  foreach(BlockParameter* param, params){
    if(param->isUserParameter() && !param->isValueSet()){
      if(!blocksToConfigure->contains(param->getOwner())){
        blocksToConfigure->append(param->getOwner());
      }
    }
  }
  foreach(AbstractInterface *inter, outputs){
    foreach(AbstractInterface *connectedInter, inter->getConnectedTo()){
      if(!checkedBlocks->contains(connectedInter->getOwner())){
        connectedInter->getOwner()->parametersValidation(checkedBlocks, blocksToConfigure);
      }
    }
  }
  */
}

void GroupBlock::addGenericParameter(QString name, QString type, QString value) {
  BlockParameter* param = new BlockParameterGeneric(this, name, type, value);
  params.append(param);
}

void GroupBlock::removeGenericParameter(QString name) {
  BlockParameter* p = getParameterFromName(name);
  if (p != NULL) params.removeAll(p);
}

void GroupBlock::initInputPattern() {
  foreach(AbstractInterface* iface, getControlInputs()) {
    ConnectedInterface* connIface = AI_TO_CON(iface);
    connIface->setOutputPattern(connIface->getConnectedFrom()->getOutputPattern());    
  }  
}

bool GroupBlock::computeOutputPattern(int nbExec) {

  static QString fctName = "GroupBlock::computeOutputPattern()";
#ifdef DEBUG_FCTNAME
  cout << "call to " << qPrintable(fctName) << endl;
#endif

  cout << "computing output pattern of group " << qPrintable(name) << endl;
  
  bool canCompute = true;
  // get the input pattern on each inputs
  initInputPattern();
  
  cout << "Input pattern OK" << endl;
  // find blocks that are connected to that inputs and generators
  QList<AbstractBlock*> fifo;
  foreach(AbstractBlock* block, blocks) {
        
    bool addIt = false;
    // if a block is a generator and has control outputs, add it
    if (block->isGeneratorBlock()) {
      if (block->getControlOutputs().size() > 0) addIt = true;
    }
    else {
      // if the block has a control input connected from an intput of the group, add it too
      foreach(AbstractInterface* iface, block->getControlInputs()) {
        //cout << qPrintable(iface->getName()) << " of " << qPrintable(iface->getOwner()->getName()) << " connected to " << endl;       
        ConnectedInterface* connFrom = ((ConnectedInterface*)iface)->getConnectedFrom();
        //cout << qPrintable(connFrom->getName()) << " of " << qPrintable(connFrom->getOwner()->getName()) << endl;
        
        if (connFrom->getOwner() == this) {
          addIt = true;
          break;
        }
      }
    }
    if (addIt) {
      cout << "adding " << qPrintable(block->getName()) << " to initialize the FIFO" << endl;
      fifo.append(block);    
    }
  }
  
  while (!fifo.isEmpty()) {
    AbstractBlock* block = fifo.takeFirst();
    
    if (block->getPatternComputed()) continue; // block has laready been processed
        
    canCompute = block->computeOutputPattern();
    if (!canCompute) {
      cout << "cannot finalize output pattern computation of " << qPrintable(block->getName()) << endl;
      break;
    }
    block->setPatternComputed(true);
    // add other blocks connected from block to the fifo
    foreach(AbstractInterface* iface, block->getControlOutputs()) {
      ConnectedInterface* conn = (ConnectedInterface*)iface;
      foreach(ConnectedInterface* connTo, conn->getConnectedTo()) {
        /* if connTo is owned by a functional block
           or by a group block that is within this, add the block to the fifo.
         */
        if (connTo->getOwner()->isFunctionalBlock()) {
          fifo.append(connTo->getOwner());
        }
        else if (connTo->getOwner() != this) {
          fifo.append(connTo->getOwner());
        }      
      }
    }
  }
  
  if (canCompute) {
    foreach(AbstractInterface* iface, getControlOutputs()) {
      ConnectedInterface* connIface = AI_TO_CON(iface);
      connIface->setOutputPattern(connIface->getConnectedFrom()->getOutputPattern());    
    }
    setPatternComputed(true);
  }
  return canCompute;
}