X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/blast.git/blobdiff_plain/5d4e709cb8d460b2efc083e6e7999f1c3a0eb602..4cf57e6db08da791233d75237f62e74bc88dd427:/GroupBlock.cpp diff --git a/GroupBlock.cpp b/GroupBlock.cpp index a8a06e6..b515b54 100644 --- a/GroupBlock.cpp +++ b/GroupBlock.cpp @@ -10,7 +10,7 @@ int GroupBlock::counter = 1; GroupBlock::GroupBlock(GroupBlock *_parent) throw(Exception) : AbstractBlock() { // force topGroup to false if this group has a parent - if (_parent != NULL) { + if (_parent != NULL) { topGroup = false; name = QString("sub_group")+"_"+QString::number(counter++); } @@ -105,71 +105,139 @@ void GroupBlock::removeGenericParameter(QString name) { if (p != NULL) params.removeAll(p); } -void GroupBlock::initInputPattern() { +void GroupBlock::createInputPattern() { foreach(AbstractInterface* iface, getControlInputs()) { - iface->setOutputPattern(iface->getConnectedFrom()->getOutputPattern()); - } + ConnectedInterface* connIface = AI_TO_CON(iface); + QList* pattern = new QList(*(connIface->getConnectedFrom()->getOutputPattern())); + connIface->setOutputPattern(pattern); + } +} + +void GroupBlock::computeAdmittanceDelays() throw(Exception) { + throw(Exception(INVALID_GROUPBLOCK_USE)); } -bool GroupBlock::computeOutputPattern(int nbExec) { +void GroupBlock::checkInputPatternCompatibility() throw(Exception){ + throw(Exception(INVALID_GROUPBLOCK_USE)); +} + + +void GroupBlock::computeOutputPattern(int nbExec) throw(Exception) { + + 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; + bool canCompute = false; // get the input pattern on each inputs - initInputPattern(); + createInputPattern(); + cout << "Input pattern OK" << endl; // find blocks that are connected to that inputs and generators QList 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 + // if the block has all its connected inputs that are connected to an intput of the group, add it too + addIt = true; foreach(AbstractInterface* iface, block->getControlInputs()) { - ConnectedInterface* conn = (ConnectedInterface*)iface; - ConnectedInterface* groupIface = conn->getConnectionFromParentGroup(); - if (groupIface != NULL) { - addIt = true; + //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 == NULL) { + addIt = false; + break; + } + else if (connFrom->getOwner() != this) { + addIt = false; break; } } } - if (addIt) fifo.append(block); + if (addIt) { + cout << "adding " << qPrintable(block->getName()) << " to initialize the FIFO" << endl; + block->setTraversalLevel(0); // level 0 = first blocks to be evaluated + fifo.append(block); + } } + while (!fifo.isEmpty()) { AbstractBlock* block = fifo.takeFirst(); - cout << "computing pattern for " << qPrintable(block->getName()) << endl; - canCompute = block->computeOutputPattern(); - if (!canCompute) { + + if (block->getPatternComputed()) continue; // block has already been processed + + cout << "computing compat and output for " << qPrintable(block->getName()) << endl; + + + try { + block->checkInputPatternCompatibility(); + } + catch(Exception e) { + cout << qPrintable(block->getName()) << " is not compatible with its input pattern" << endl; + throw(e); + } + + try { + block->computeOutputPattern(); + } + catch(Exception e) { cout << "cannot finalize output pattern computation of " << qPrintable(block->getName()) << endl; - break; + throw(e); } + canCompute = true; block->setPatternComputed(true); - // add other blocks connected from block to the fifo + /* add other blocks connected from block to the fifo but only if + all their connected inputs are connected to blocks that have + a traversalLevel >=0 + */ 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()); + + AbstractBlock* block1 = connTo->getOwner(); + cout << "testing if " << qPrintable(block1->getName()) << " has all connected inputs connected to already processed blocks" << endl; + bool addIt = true; + int maxLevel = 0; + + foreach(AbstractInterface* iface, block1->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 != NULL) && (connFrom->getOwner()->getPatternComputed() == false)) { + addIt = false; + break; + } + else { + if (connFrom->getOwner()->getTraversalLevel() > maxLevel) maxLevel = connFrom->getOwner()->getTraversalLevel(); + } + } + + if (addIt) { + cout << "adding " << qPrintable(block1->getName()) << " to the FIFO" << endl; + block1->setTraversalLevel(maxLevel+1); // level 0 = first blocks to be evaluated + fifo.append(block1); } - else if (connTo->getOwner() != this) { - fifo.append(connTo->getOwner()); - } } } } - + if (canCompute) { foreach(AbstractInterface* iface, getControlOutputs()) { - iface->setOutputPattern(iface->getConnectedFrom()->getOutputPattern()); + ConnectedInterface* connIface = AI_TO_CON(iface); + QList* pattern = new QList(*(connIface->getConnectedFrom()->getOutputPattern())); + connIface->setOutputPattern(pattern); } setPatternComputed(true); } - return canCompute; + }