#include "GroupBlock.h"
#include "ReferenceBlock.h"
#include "FunctionalBlock.h"
+#include "SpecialBlock.h"
-Graph::Graph() {
- topGroup = new GroupBlock(NULL);
+Graph::Graph(bool createTopGroupIface) {
+ topGroup = new GroupBlock(NULL, createTopGroupIface);
topGroup->setName("top group");
groups.append(topGroup);
}
return topGroup->getInterfaces();
}
-GroupBlock* Graph::createChildGroupBlock(GroupBlock* parent) {
- GroupBlock* b = new GroupBlock(parent);
+GroupBlock* Graph::createChildGroupBlock(GroupBlock* parent, bool createGroupIface) {
+ GroupBlock* b = new GroupBlock(parent, createGroupIface);
groups.append(b);
return b;
}
-bool Graph::removeGroupBlock(GroupBlock *group) {
+void Graph::removeGroupBlock(GroupBlock *group) {
group->removeAllBlocks();
GroupBlock* parent = AB_TO_GRP(group->getParent());
parent->removeBlock(group);
return NULL;
}
-FunctionalBlock* Graph::createFunctionalBlock(GroupBlock* group, ReferenceBlock* ref) {
+FunctionalBlock* Graph::createFunctionalBlock(GroupBlock* group, ReferenceBlock* ref, bool createIfaces) {
- FunctionalBlock* newBlock = new FunctionalBlock(group,ref);
- newBlock->populate();
+ FunctionalBlock* newBlock = NULL;
+ if (ref->getSpecialType() != -1) {
+ newBlock = new SpecialBlock(ref->getSpecialType(), group,ref, createIfaces);
+ }
+ else {
+ newBlock = new FunctionalBlock(group,ref, createIfaces);
+ }
group->addBlock(newBlock);
return newBlock;
GroupBlock* group = AB_TO_GRP(block->getParent());
// adding to the graph
- FunctionalBlock* newBlock = createFunctionalBlock(group,ref);
+ FunctionalBlock* newBlock = createFunctionalBlock(group,ref, true);
return newBlock;
}
return block;
}
-FunctionalBlock* Graph::createSourceBlock(ReferenceBlock* ref) {
+FunctionalBlock* Graph::createStimuliBlock(ReferenceBlock* ref, bool createIfaces) {
+ /* A stimuli block is always a special block with idSpecial = 1 */
- FunctionalBlock* newBlock = new FunctionalBlock(NULL,ref);
- newBlock->populate();
- sources.append(newBlock);
+ FunctionalBlock* newBlock = new SpecialBlock(AbstractBlock::Source, NULL,ref, createIfaces);
+ stimulis.append(newBlock);
return newBlock;
}
-FunctionalBlock* Graph::duplicateSourceBlock(FunctionalBlock *block) {
+FunctionalBlock* Graph::duplicateStimuliBlock(FunctionalBlock *block) {
- ReferenceBlock* ref = block->getReference();
- GroupBlock* group = AB_TO_GRP(block->getParent());
+ ReferenceBlock* ref = block->getReference();
// adding to the graph
- FunctionalBlock* newBlock = createSourceBlock(ref);
+ FunctionalBlock* newBlock = createStimuliBlock(ref, true);
return newBlock;
}
-FunctionalBlock* Graph::getSourceBlockByName(QString name) {
- foreach(FunctionalBlock* block, sources) {
+FunctionalBlock* Graph::getStimuliBlockByName(QString name) {
+ foreach(FunctionalBlock* block, stimulis) {
if (block->getName() == name) return block;
}
return NULL;
}
-bool Graph::removeSourceBlock(FunctionalBlock *block) {
- sources.removeAll(block);
+bool Graph::removeStimuliBlock(FunctionalBlock *block) {
+ stimulis.removeAll(block);
return true;
}
+
+void Graph::createPatterns() throw(Exception) {
+
+ foreach(AbstractBlock* block, stimulis) {
+ FunctionalBlock* funBlock = AB_TO_FUN(block);
+ try {
+ funBlock->createPatterns();
+ }
+ catch(Exception e) {
+ throw(e);
+ }
+ }
+
+ foreach(AbstractBlock* block, groups) {
+ GroupBlock* group = AB_TO_GRP(block);
+ foreach(AbstractBlock* inBlock, group->getBlocks()) {
+ if (inBlock->isFunctionalBlock()) {
+ FunctionalBlock* funBlock = AB_TO_FUN(inBlock);
+ try {
+ funBlock->createPatterns();
+ }
+ catch(Exception e) {
+ throw(e);
+ }
+ }
+ }
+ }
+}
+
+void Graph::resetPatternComputed() {
+ foreach(AbstractBlock* block, stimulis) {
+ block->setOutputPatternComputed(false);
+ block->resetTraversalLevel();
+ }
+ foreach(AbstractBlock* block, groups) {
+ GroupBlock* group = AB_TO_GRP(block);
+ group->setOutputPatternComputed(false);
+ block->resetTraversalLevel();
+ foreach(AbstractBlock* inBlock, group->getBlocks()) {
+ inBlock->setOutputPatternComputed(false);
+ block->resetTraversalLevel();
+ }
+ }
+}
+
+void Graph::computeOutputPatterns(int nbExec) throw(Exception) {
+
+ try {
+ createPatterns();
+ }
+ catch(Exception e) {
+ throw(e);
+ }
+
+ resetPatternComputed();
+ // search for all block that are source.
+ QList<FunctionalBlock*> sources;
+ sources.append(stimulis);
+ foreach(AbstractBlock* block, groups) {
+ GroupBlock* group = AB_TO_GRP(block);
+ foreach(AbstractBlock* inBlock, group->getBlocks()) {
+ FunctionalBlock* funBlock = AB_TO_FUN(inBlock);
+ if (inBlock->isSourceBlock()) {
+ sources.append(funBlock);
+ }
+ }
+ }
+ // search for maximum PP length
+ int maxPP = 0;
+ foreach(FunctionalBlock* block, sources) {
+ if (block->getProductionPatternLength() > maxPP) maxPP = block->getProductionPatternLength();
+ }
+ // compute output for generators
+ int maxExecLen = maxPP*nbExec;
+ foreach(FunctionalBlock* block, sources) {
+ int d = block->getProductionPatternLength();
+ block->computeOutputPattern((maxExecLen+d-1)/d);
+ }
+ // compute output for top group
+ try {
+ topGroup->computeOutputPattern();
+ }
+ catch(Exception e) {
+ throw(e);
+ }
+}
+
+void Graph::generateVHDL(const QString &path) throw(Exception) {
+ try {
+ topGroup->generateVHDL(path);
+ }
+ catch(Exception e) {
+ throw(e);
+ }
+}
+
+QList<QString> Graph::getExternalResources() {
+ QList<QString> list = topGroup->getExternalResources();
+ return list;
+}