+\r
+void FunctionalBlock::createPatterns() throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::createPatterns()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ cout << "create patterns for block " << qPrintable(name) << endl;\r
+ if (evaluator == NULL) evaluator = new ArithmeticEvaluator();\r
+ if (! isGeneratorBlock()) {\r
+ try {\r
+ createDelta();\r
+ createConsumptionPattern(); \r
+ createProductionCounter();\r
+ }\r
+ catch(Exception e) {\r
+ throw(e); // rethrow e\r
+ }\r
+ }\r
+ try {\r
+ createProductionPattern();\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ cout << "PP of " << qPrintable(name) << endl;\r
+ QMapIterator<AbstractInterface*,QList<char>* > it(productionPattern);\r
+ while (it.hasNext()) {\r
+ it.next();\r
+ QList<char>* pat = it.value();\r
+ foreach(char c, *pat) cout << (int)c;\r
+ cout << endl;\r
+ }\r
+}\r
+\r
+void FunctionalBlock::createDelta() throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::createDelta()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif \r
+ \r
+ QString deltaStr = implementation->getDelta(); \r
+ cout << "delta for " << qPrintable(name) << " = " << qPrintable(deltaStr) << endl;\r
+ if (deltaStr.isEmpty()) {\r
+ delta = -1;\r
+ return;\r
+ }\r
+ \r
+ // look for parameter names \r
+ double result = 0;\r
+ try {\r
+ result = evaluateExpression(deltaStr);\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ delta = result;\r
+ cout << "delta = " << delta << endl;\r
+}\r
+\r
+void FunctionalBlock::createConsumptionPattern() throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::createConsumptionPattern()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ lengthCP = -1; \r
+ QHash<QString,QString> consPattern = implementation->getConsumptionPattern(); \r
+ \r
+ foreach(AbstractInterface* iface, getControlInputs()) { \r
+ FunctionalInterface* connIface = AI_TO_FUN(iface);\r
+ QString refName = connIface->getReference()->getName(); \r
+ if (! consPattern.contains(refName)) {\r
+ throw(Exception(NO_IFACE_CP));\r
+ cerr << "no consumption pattern for reference interface " << qPrintable(refName) << endl;\r
+ }\r
+ QList<char>* pattern = NULL;\r
+ try {\r
+ pattern = expandPattern(consPattern.value(refName));\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ consumptionPattern.insert(connIface,pattern);\r
+ if (lengthCP == -1) {\r
+ lengthCP = pattern->size();\r
+ }\r
+ else {\r
+ if (pattern->size() != lengthCP) {\r
+ throw(Exception(INVALID_IFACE_CP_LENGTH));\r
+ }\r
+ }\r
+ } \r
+}\r
+\r
+void FunctionalBlock::createProductionPattern() throw(Exception){ \r
+ static QString fctName = "FunctionalBlock::createProductionPattern()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ lengthPP = -1; \r
+ QHash<QString,QString> prodPattern = implementation->getProductionPattern(); \r
+ \r
+ foreach(AbstractInterface* iface, getControlOutputs()) { \r
+ FunctionalInterface* connIface = AI_TO_FUN(iface);\r
+ QString refName = connIface->getReference()->getName(); \r
+ if (! prodPattern.contains(refName)) {\r
+ throw(Exception(NO_IFACE_PP)); \r
+ }\r
+ QList<char>* pattern = NULL;\r
+ try {\r
+ pattern = expandPattern(prodPattern.value(refName));\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ productionPattern.insert(connIface,pattern);\r
+ if (lengthPP == -1) {\r
+ lengthPP = pattern->size();\r
+ }\r
+ else {\r
+ if (pattern->size() != lengthPP) {\r
+ throw(Exception(INVALID_IFACE_PP_LENGTH));\r
+ }\r
+ }\r
+ } \r
+}\r
+\r
+void FunctionalBlock::createProductionCounter() throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::createProductionCounter()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ QStringList counterParts = implementation->getProductionCounter().split(",");\r
+ foreach(QString s, counterParts) {\r
+ cout << "cont part = " << qPrintable(s) << endl;\r
+ bool ok;\r
+ double val = s.toDouble(&ok);\r
+ if (ok) {\r
+ productionCounter.append(val);\r
+ }\r
+ else if (s.at(0) == '{') {\r
+ s.remove(0,1);\r
+ s.chop(1);\r
+ QStringList gen = s.split(":");\r
+ if (gen.size() != 3) {\r
+ throw(Exception(INVALID_IFACE_PC));\r
+ }\r
+ int start = 0;\r
+ int nb = 0;\r
+ int step = 0;\r
+ for(int i=0;i<3;i++) { \r
+ double result = 0.0;\r
+ try {\r
+ result = evaluateExpression(gen.at(i));\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ if (i==0) start = result;\r
+ else if (i==1) nb = result;\r
+ else if (i==2) step = result;\r
+ }\r
+ for(int j=0;j<nb;j++) {\r
+ productionCounter.append(start+j*step);\r
+ }\r
+ }\r
+ else { \r
+ double result = 0.0;\r
+ try {\r
+ result = evaluateExpression(s);\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ productionCounter.append(result); \r
+ }\r
+ }\r
+ foreach(int val, productionCounter) {\r
+ cout << val << ",";\r
+ }\r
+ cout << endl;\r
+}\r
+\r
+QList<char>* FunctionalBlock::expandPattern(const QString& patternIn) throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::expandPattern()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ QList<char> lst;\r
+ QString p = patternIn;\r
+ p.append(')');\r
+ int offset = 0; \r
+ QList<char>* patternOut = new QList<char>();\r
+ try {\r
+ patternOut->append(expandPatternRecur(p,&offset));\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+\r
+ return patternOut;\r
+}\r
+\r
+QList<char> FunctionalBlock::expandPatternRecur(const QString& patternIn, int *offset) throw(Exception) {\r
+ \r
+ QList<char> patternOut;\r
+\r
+ while ((*offset < patternIn.size()) && (patternIn.at(*offset) != ')')) {\r
+ \r
+ QChar c = patternIn.at(*offset);\r
+ if (c == '(') {\r
+ *offset += 1;\r
+ try {\r
+ patternOut.append(expandPatternRecur(patternIn,offset));\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ }\r
+ else if (c == '0') {\r
+ patternOut.append(0);\r
+ }\r
+ else if (c == '1') {\r
+ patternOut.append(1);\r
+ }\r
+ else if (c == 'X') {\r
+ patternOut.append(-1);\r
+ }\r
+ else if (c == '{') {\r
+ *offset += 1;\r
+ QString expr = ""; \r
+ while ((*offset < patternIn.size()) && (patternIn.at(*offset) != '}')) {\r
+ expr += patternIn.at(*offset); \r
+ *offset += 1;\r
+ }\r
+ if (*offset == patternIn.size()) {\r
+ throw(Exception(INVALID_IFACE_PATTERN));\r
+ }\r
+ double repeat = 0;\r
+ try {\r
+ repeat = evaluateExpression(expr);\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ // repeat just the last value in currentGroup\r
+ char last = patternOut.last();\r
+ //cout << "repeat last char " << repeat << " times : " << (int)last << endl;\r
+ \r
+ for(int i=1;i<(int)repeat;i++) {\r
+ patternOut.append(last);\r
+ }\r
+ } \r
+ *offset += 1;\r
+ }\r
+ \r
+ // must check if after ), there is a {\r
+ if ((*offset < patternIn.size()-1) && (patternIn.at(*offset+1) == '{')) {\r
+ *offset += 2;\r
+ QString expr = ""; \r
+ while ((*offset < patternIn.size()) && (patternIn.at(*offset) != '}')) {\r
+ expr += patternIn.at(*offset); \r
+ *offset += 1;\r
+ }\r
+ if (*offset == patternIn.size()) {\r
+ throw(Exception(INVALID_IFACE_PATTERN));\r
+ }\r
+ double repeat = 0;\r
+ try {\r
+ repeat = evaluateExpression(expr);\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ /*\r
+ cout << "repeat last group " << repeat << " times : ";\r
+ foreach (char c, currentGroup) cout <<(int)c;\r
+ cout << endl; \r
+ */\r
+ QList<char> single = patternOut;\r
+ for(int i=1;i<(int)repeat;i++) {\r
+ patternOut.append(single);\r
+ } \r
+ } \r
+ return patternOut;\r
+}\r
+\r
+double FunctionalBlock::evaluateExpression(const QString& expression) throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::evaluateExpression()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ QHash<QString,double> vars;\r
+ evaluator->setExpression(expression);\r
+ QList<QString> varNames = evaluator->getVariableNames();\r
+ foreach (QString name, varNames) {\r
+ QString paramName = name;\r
+ paramName.remove(0,1);\r
+ BlockParameter* param = reference->getParameterFromName(paramName); \r
+ if (param == NULL) {\r
+ throw(Exception(EVAL_PARAM_UNKNOWN));\r
+ }\r
+ bool okVal;\r
+ int val = param->getDoubleValue(&okVal);\r
+ if (!okVal) {\r
+ throw(Exception(EVAL_PARAM_NOVALUE)); \r
+ }\r
+ vars.insert(name,(double)val); \r
+ }\r
+ \r
+ evaluator->setVariablesValue(vars);\r
+ double result = 0.0;\r
+ try {\r
+ result = evaluator->evaluate();\r
+ }\r
+ catch(int index) {\r
+ cerr << "Error at index " << index << ": " << qPrintable(evaluator->getError()) << endl;\r
+ throw(Exception(EVAL_INVALID_EXPR));\r
+ }\r
+ return result;\r
+}\r
+\r
+void FunctionalBlock::createInputPattern() throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::createInputPattern())";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ lengthIP = -1;\r
+ foreach(AbstractInterface* iface, getControlInputs()) { \r
+ ConnectedInterface* connIface = AI_TO_CON(iface);\r
+ QList<char>* out = connIface->getConnectedFrom()->getOutputPattern();\r
+ if (out->size() == 0) {\r
+ clearInputPattern();\r
+ throw(Exception(NO_IFACE_IP));\r
+ }\r
+ if (lengthIP == -1) {\r
+ lengthIP = out->size();\r
+ }\r
+ else {\r
+ if (out->size() < lengthIP) lengthIP = out->size();\r
+ }\r
+ \r
+ QList<char>* in = new QList<char>(*out);\r
+ foreach(char c, *in) {\r
+ cout << (int)c;\r
+ }\r
+ cout << endl; \r
+ inputPattern.insert(connIface,in); \r
+ }\r
+ // search the last valid group in IP,\r
+ while(! isValidDataGroup(inputPattern,lengthIP-1)) {\r
+ //removeDataGroup(inputPattern,lengthIP-1);\r
+ lengthIP -= 1;\r
+ }\r
+}\r
+\r
+void FunctionalBlock::createAdmittance(int nbExec) throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::createAdmittance()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif \r
+ // firstly, copy CP in AP\r
+ QMapIterator<AbstractInterface*,QList<char>* > iterC(consumptionPattern);\r
+ while (iterC.hasNext()) {\r
+ iterC.next();\r
+ QList<char>* pattern = new QList<char>(*(iterC.value()));\r
+ admittance.insert(iterC.key(), pattern); \r
+ }\r
+ lengthAP = lengthCP;\r
+ int clock = 0; \r
+ cout << "trigger 1 at c.c. 0" << endl;\r
+ for(int i=1;i<nbExec;i++) {\r
+ // searching for the clock cycle for which a new exec starts\r
+ int nbGroup = 0;\r
+ while ((clock < lengthAP) && (nbGroup < delta)) {\r
+ if (isValidDataGroup(admittance,clock)) nbGroup+=1;\r
+ clock += 1;\r
+ }\r
+ while ((clock < lengthAP) && (! isValidDataGroup(admittance,clock))) clock+=1;\r
+ cout << "trigger " << (i+1) << " at c.c. " << clock << endl;\r
+ int sc = clock;\r
+ // combine CP with AP at sc\r
+ for(int j=0;j<lengthCP;j++) {\r
+ // first case : column of CP must be placed beyond AP's end.\r
+ if (sc == lengthAP) {\r
+ cout << i << "," << j << " append in AP at " << sc << endl;\r
+ appendToPattern(consumptionPattern,j,admittance,1);\r
+ lengthAP += 1;\r
+ sc += 1; \r
+ }\r
+ // second case : CP and AP can be combined directly (i.e. no X | 1 to do)\r
+ else if (canCombinePatterns(consumptionPattern,j,admittance,sc)) {\r
+ cout << i << "," << j << " combine at " << sc << endl;\r
+ combinePatterns(consumptionPattern,j,admittance,sc);\r
+ sc += 1;\r
+ }\r
+ // third case : CP has an X column\r
+ else if (isOnlyXDataGroup(consumptionPattern,j)) {\r
+ cout << i << "," << j << " shift rigth AP to combine at " << sc << endl;\r
+ shiftRightPattern(admittance,sc);\r
+ lengthAP += 1;\r
+ if (! canCombinePatterns(consumptionPattern,j,admittance,sc)) {\r
+ cerr << "Abnormal case when combining AP and CP" << endl;\r
+ }\r
+ combinePatterns(consumptionPattern,j,admittance,sc); \r
+ sc += 1;\r
+ }\r
+ // fourth case : AP has an X column\r
+ else if (isOnlyXDataGroup(admittance,sc)) {\r
+ cout << i << "," << j << " jump c.c. for CP at " << sc << endl; \r
+ sc += 1;\r
+ j -= 1;\r
+ }\r
+ else {\r
+ throw(INVALID_DELTA_CP); \r
+ }\r
+ }\r
+ }\r
+ // turn all X into 0\r
+ QMapIterator<AbstractInterface*,QList<char>* > iterA(admittance);\r
+ while (iterA.hasNext()) {\r
+ iterA.next();\r
+ QList<char>* pattern = iterA.value();\r
+ for(int i=0;i<pattern->size();i++) {\r
+ if (pattern->at(i) == -1) pattern->replace(i,0);\r
+ cout << (int)(pattern->at(i));\r
+ }\r
+ cout << endl;\r
+ } \r
+}\r
+\r
+void FunctionalBlock::checkInputPatternCompatibility() throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::checkInputPatternCompatibility()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ // firstly, create input pattern\r
+ try {\r
+ createInputPattern();\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ int nbExec = createTriggers();\r
+ cout << qPrintable(name) << " will exec. " << nbExec << " times." << endl;\r
+ \r
+ try {\r
+ createAdmittance(nbExec);\r
+ }\r
+ catch(Exception e) {\r
+ cout << "cannot create admittance" << endl;\r
+ throw(e);\r
+ }\r
+ \r
+ int clock = 0; // index in IP \r
+ int i = 0; // index in AP \r
+ while ((clock < lengthIP) && (i < lengthAP)) {\r
+ \r
+ // if AP is a valid group, search for the next valid group in IP\r
+ if (isValidDataGroup(admittance,i)) {\r
+ while ((clock < lengthIP) && (! isValidDataGroup(inputPattern,clock))) clock++;\r
+ if (clock == lengthIP) {\r
+ cerr << "Abnormal case: end of IP has been reached without finding a valid group" << endl;\r
+ throw(Exception(IP_END_NULLCOL)); \r
+ }\r
+ } \r
+ /* at that point 2 cases of compat : IP(clock) and AP(i) are equal valid group, or\r
+ are both null columns\r
+ */\r
+ if (! samePatterns(inputPattern,clock,admittance,i)) {\r
+ cout << "AP(" << i << ") and IP(" << clock << ") are not equal" << endl;\r
+ throw(Exception(IP_AP_NOTCOMPAT)); // IP and AP not compatible\r
+ }\r
+ clock++;\r
+ i++;\r
+ }\r
+ if (clock < lengthIP) {\r
+ throw(Exception(AP_TOO_SHORT));\r
+ cerr << "Abnormal case: AP is to short" << endl; \r
+ } \r
+}\r
+\r
+void FunctionalBlock::computeOutputPattern(int nbExec) throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::computeOutputPattern()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+ \r
+ /* case 1: the block is a generator for which output pattern\r
+ must be computed for a nbExec following executions\r
+ */\r
+ \r
+ \r
+ if (nbExec > 0) {\r
+ cout << "computing output pattern of " << qPrintable(name) << " for " << nbExec << " executions" << endl;\r
+ foreach(AbstractInterface* iface, getControlOutputs()) {\r
+ FunctionalInterface* connIface = AI_TO_FUN(iface);\r
+ // create output pattern\r
+ QList<char>* pp = productionPattern.value(connIface);\r
+ QList<char>* pattern = new QList<char>(*pp);\r
+ for(int i=1;i<nbExec;i++) pattern->append(*pp);\r
+ // assign pattern to interface\r
+ connIface->setOutputPattern(pattern);\r
+ // store it in QMap\r
+ outputPattern.insert(connIface,pattern); \r
+ }\r
+ }\r
+ else {\r
+ cout << "computing output pattern of " << qPrintable(name) << endl;\r
+ \r
+ // in case of inputPattern not created, do it\r
+ if (lengthIP <= 0) {\r
+ // collect the input patterns for each input \r
+ try {\r
+ createInputPattern();\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ cout << "input pattern array initialized with min. len " << lengthIP << endl;\r
+ }\r
+ \r
+ // initialize the output pattern \r
+ lengthOP = 0;\r
+ foreach(AbstractInterface* iface, getControlOutputs()) {\r
+ FunctionalInterface* connIface = AI_TO_FUN(iface); \r
+ lengthOP = lengthIP+productionPattern.value(connIface)->size();\r
+ QList<char>* pattern = new QList<char>();\r
+ for(int i=0;i<lengthOP;i++) pattern->append(0);\r
+ connIface->setOutputPattern(pattern);\r
+ outputPattern.insert(connIface,pattern);\r
+ }\r
+ cout << "output pattern array initialized" << endl;\r
+ \r
+ int clock = 0;\r
+ nbExec = 0;\r
+ // search for the beginning of the first execution.\r
+ while ((clock < lengthIP) && (! isValidDataGroup(inputPattern,clock))) clock++;\r
+ cout << "found 1st exec clock: " << clock << endl;\r
+ \r
+ while (clock < lengthIP) {\r
+ // initialize counters for current execution.\r
+ int p = 0; // index in production pattern\r
+ int o = 0; // clock+o will give the clock cycle of each output group\r
+ int cip = 0; // clock+cip give the clock cycle of an input group\r
+ int ccp = 0; // ccp give a column in the consumptio pattern\r
+ int nip = 0; // number of input data groups already consumed during the current execution, used while exploring IP\r
+ int ncp = 0; // number of input data groups already consumed during the current execution, used while exploring CP\r
+ bool cannotCompleteExec = false;\r
+ for(int m=0;m<productionCounter.size();m++) {\r
+ // search for the first production in PP\r
+ while (!isValidDataGroup(productionPattern,p)) {\r
+ p += 1;\r
+ o += 1;\r
+ }\r
+ int gap = 0; // count the number of extra null columns\r
+ // search for PC(m) valid input group in IP\r
+ while (nip < productionCounter.at(m)) {\r
+ if (clock+cip < lengthIP) {\r
+ if (isValidDataGroup(inputPattern,clock+cip)) nip += 1;\r
+ cip += 1;\r
+ gap += 1;\r
+ }\r
+ else {\r
+ cannotCompleteExec = true;\r
+ break;\r
+ } \r
+ } \r
+ \r
+ if (cannotCompleteExec) break; // no need to go further since the next search of input data group will lead to go outside inputPattern\r
+ \r
+ // search for PC(m) valid input group in IP\r
+ while (ncp < productionCounter.at(m)) {\r
+ if (isValidDataGroup(consumptionPattern,ccp)) ncp += 1;\r
+ ccp += 1;\r
+ gap -= 1;\r
+ }\r
+ o += gap; // to take into acocunt of extra null columns\r
+ combinePatterns(productionPattern,p,outputPattern,clock+o);\r
+ p += 1;\r
+ o += 1;\r
+ }\r
+ \r
+ if (cannotCompleteExec) break; // no need to go further since the next search of input data group will lead to go outside inputPattern\r
+ \r
+ // current exec. taken into accunt\r
+ nbExec += 1;\r
+ \r
+ // search for the next exec.\r
+ clock += 1; \r
+ nip = 0;\r
+ while ((clock < lengthIP) && (nip < delta)) {\r
+ if (isValidDataGroup(inputPattern,clock)) nip += 1;\r
+ if (nip < delta) clock += 1;\r
+ }\r
+ cout << "found exec " << nbExec << " at clock: " << clock << endl;\r
+ }\r
+ // find the last valid output data group\r
+ while(! isValidDataGroup(outputPattern,lengthOP-1)) {\r
+ removeDataGroup(outputPattern,lengthOP-1);\r
+ lengthOP -= 1;\r
+ }\r
+\r
+ // clear input pattern\r
+ clearInputPattern();\r
+ } \r
+}\r
+\r
+/*\r
+\r
+void FunctionalBlock::computeOutputPattern(int nbExec) throw(Exception) {\r
+ static QString fctName = "FunctionalBlock::computeOutputPattern()";\r
+#ifdef DEBUG_FCTNAME\r
+ cout << "call to " << qPrintable(fctName) << endl;\r
+#endif\r
+\r
+ // case 1: the block is a generator for which output pattern\r
+ // must be computed for a nbExec following executions\r
+\r
+ if (nbExec > 0) {\r
+ cout << "computing output pattern of " << qPrintable(name) << " for " << nbExec << " executions" << endl;\r
+ foreach(AbstractInterface* iface, getControlOutputs()) {\r
+ FunctionalInterface* connIface = AI_TO_FUN(iface);\r
+ // create output pattern\r
+ QList<char>* pp = productionPattern.value(connIface);\r
+ QList<char>* pattern = new QList<char>(*pp);\r
+ for(int i=1;i<nbExec;i++) pattern->append(*pp);\r
+ // assign pattern to interface\r
+ connIface->setOutputPattern(pattern);\r
+ // store it in QMap\r
+ outputPattern.insert(connIface,pattern);\r
+ }\r
+ }\r
+ else {\r
+ cout << "computing output pattern of " << qPrintable(name) << endl;\r
+\r
+ // in case of inputPattern not created, do it\r
+ if (lengthIP <= 0) {\r
+ // collect the input patterns for each input\r
+ try {\r
+ createInputPattern();\r
+ }\r
+ catch(Exception e) {\r
+ throw(e);\r
+ }\r
+ cout << "input pattern array initialized with min. len " << lengthIP << endl;\r
+ }\r
+\r
+ // initialize the output pattern\r
+ lengthOP = 0;\r
+ foreach(AbstractInterface* iface, getControlOutputs()) {\r
+ FunctionalInterface* connIface = AI_TO_FUN(iface);\r
+ lengthOP = lengthIP+productionPattern.value(connIface)->size();\r
+ QList<char>* pattern = new QList<char>();\r
+ for(int i=0;i<lengthOP;i++) pattern->append(0);\r
+ connIface->setOutputPattern(pattern);\r
+ outputPattern.insert(connIface,pattern);\r
+ }\r
+ cout << "output pattern array initialized" << endl;\r
+\r
+ int clock = 0;\r
+ nbExec = 0;\r
+ // search for the beginning of the first execution.\r
+ while ((clock < lengthIP) && (! isValidDataGroup(inputPattern,clock))) clock++;\r
+ cout << "found 1st exec clock: " << clock << endl;\r
+\r
+ while (clock < lengthIP) {\r
+ // initialize counters for current execution.\r
+ int p = 0; // index in production pattern\r
+ int o = 0; // clock+o will give the clock cycle of each output group\r
+ int cip = 0; // clock+cip give the clock cycle of an input group\r
+ int ccp = 0; // ccp give a column in the consumptio pattern\r
+ int nip = 0; // number of input data groups already consumed during the current execution, used while exploring IP\r
+ int ncp = 0; // number of input data groups already consumed during the current execution, used while exploring CP\r
+ bool cannotCompleteExec = false;\r
+ for(int m=0;m<productionCounter.size();m++) {\r
+ // search for the first production in PP\r
+ while (!isValidDataGroup(productionPattern,p)) {\r
+ p += 1;\r
+ o += 1;\r
+ }\r
+ int gap = 0; // count the number of extra null columns\r
+ // search for PC(m) valid input group in IP\r
+ while (nip < productionCounter.at(m)) {\r
+ if (clock+cip < lengthIP) {\r
+ if (isValidDataGroup(inputPattern,clock+cip)) nip += 1;\r
+ cip += 1;\r
+ gap += 1;\r
+ }\r
+ else {\r
+ cannotCompleteExec = true;\r
+ break;\r
+ }\r
+ }\r
+\r
+ if (cannotCompleteExec) break; // no need to go further since the next search of input data group will lead to go outside inputPattern\r
+\r
+ // search for PC(m) valid input group in IP\r
+ while (ncp < productionCounter.at(m)) {\r
+ if (isValidDataGroup(consumptionPattern,ccp)) ncp += 1;\r
+ ccp += 1;\r
+ gap -= 1;\r
+ }\r
+ o += gap; // to take into acocunt of extra null columns\r
+ combinePatterns(productionPattern,p,outputPattern,clock+o);\r
+ p += 1;\r
+ o += 1;\r
+ }\r
+\r
+ if (cannotCompleteExec) break; // no need to go further since the next search of input data group will lead to go outside inputPattern\r
+\r
+ // current exec. taken into accunt\r
+ nbExec += 1;\r
+\r
+ // search for the next exec.\r
+ clock += 1;\r
+ nip = 0;\r
+ while ((clock < lengthIP) && (nip < delta)) {\r
+ if (isValidDataGroup(inputPattern,clock)) nip += 1;\r
+ if (nip < delta) clock += 1;\r
+ }\r
+ cout << "found exec " << nbExec << " at clock: " << clock << endl;\r
+ }\r
+ // find the last valid output data group\r
+ while(! isValidDataGroup(outputPattern,lengthOP-1)) {\r
+ removeDataGroup(outputPattern,lengthOP-1);\r
+ lengthOP -= 1;\r
+ }\r
+\r
+ // clear input pattern\r
+ clearInputPattern();\r
+ }\r
+}\r
+*/\r
+bool FunctionalBlock::samePatterns(const QMap<AbstractInterface*, QList<char>* >& patternSrc, int srcCol, const QMap<AbstractInterface*, QList<char>* >& patternDest, int destCol) {\r
+ \r
+ if (patternSrc.size() != patternDest.size()) return false;\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(patternSrc);\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterDest(patternDest);\r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next();\r
+ iterDest.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ QList<char>* destPat = iterDest.value();\r
+ if (srcCol >= srcPat->size()) return false;\r
+ if (destCol >= destPat->size()) return false;\r
+ if (srcPat->at(srcCol) != destPat->at(destCol)) return false; \r
+ }\r
+ return true;\r
+}\r
+\r
+bool FunctionalBlock::canCombinePatterns(const QMap<AbstractInterface*, QList<char>* >& patternSrc, int srcCol, QMap<AbstractInterface*, QList<char>* > patternDest, int destCol) {\r
+ if (patternSrc.size() != patternDest.size()) return false;\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(patternSrc);\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterDest(patternDest);\r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next();\r
+ iterDest.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ QList<char>* destPat = iterDest.value();\r
+ if (srcCol >= srcPat->size()) return false;\r
+ if (destCol >= destPat->size()) return false;\r
+ if ((srcPat->at(srcCol) == -1) && (destPat->at(destCol) == 1)) return false;\r
+ if ((srcPat->at(srcCol) == 1) && (destPat->at(destCol) == -1)) return false;\r
+ }\r
+ return true;\r
+}\r
+\r
+void FunctionalBlock::combinePatterns(const QMap<AbstractInterface*, QList<char>* >& patternSrc, int srcCol, QMap<AbstractInterface*, QList<char>* > patternDest, int destCol) {\r
+ if (patternSrc.size() != patternDest.size()) return;\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(patternSrc);\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterDest(patternDest);\r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next();\r
+ iterDest.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ QList<char>* destPat = iterDest.value();\r
+ if (srcCol >= srcPat->size()) return;\r
+ if (destCol >= destPat->size()) return;\r
+ if ((srcPat->at(srcCol) == -1) && (destPat->at(destCol) == 1)) return;\r
+ if ((srcPat->at(srcCol) == 1) && (destPat->at(destCol) == -1)) return; \r
+ destPat->replace(destCol,destPat->at(destCol) | srcPat->at(srcCol));\r
+ } \r
+}\r
+\r
+void FunctionalBlock::appendToPattern(const QMap<AbstractInterface*, QList<char>* >& patternSrc, int srcCol, QMap<AbstractInterface*, QList<char>* > patternDest, int nbCols) {\r
+ if (patternSrc.size() != patternDest.size()) return;\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(patternSrc);\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterDest(patternDest);\r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next();\r
+ iterDest.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ QList<char>* destPat = iterDest.value(); \r
+ int i=0;\r
+ while ((srcCol+i < srcPat->size()) && (i<nbCols)) {\r
+ destPat->append(srcPat->at(srcCol+i));\r
+ i++;\r
+ }\r
+ } \r
+}\r
+\r
+void FunctionalBlock::removeDataGroup(QMap<AbstractInterface *, QList<char> *> &pattern, int offset) {\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(pattern); \r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ if (offset < srcPat->size()) {\r
+ srcPat->removeAt(offset);\r
+ }\r
+ }\r
+}\r
+\r
+void FunctionalBlock::shiftRightPattern(const QMap<AbstractInterface *, QList<char> *> &pattern, int offset) {\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(pattern); \r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ if (offset < srcPat->size()) {\r
+ srcPat->insert(offset,0);\r
+ }\r
+ }\r
+}\r
+\r
+bool FunctionalBlock::isValidDataGroup(const QMap<AbstractInterface *, QList<char> *> &pattern, int offset) {\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(pattern); \r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ if (offset >= srcPat->size()) return false;\r
+ if (srcPat->at(offset) == 1) return true;\r
+ }\r
+ return false;\r
+}\r
+\r
+bool FunctionalBlock::isOnlyXDataGroup(const QMap<AbstractInterface *, QList<char> *> &pattern, int offset) {\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterSrc(pattern); \r
+ while (iterSrc.hasNext()) {\r
+ iterSrc.next(); \r
+ QList<char>* srcPat = iterSrc.value();\r
+ if (offset >= srcPat->size()) return false;\r
+ if (srcPat->at(offset) != -1) return false;\r
+ }\r
+ return true; \r
+}\r
+\r
+void FunctionalBlock::clearConsumptionPattern() {\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterP(consumptionPattern); \r
+ while (iterP.hasNext()) {\r
+ iterP.next();\r
+ QList<char>* pattern = iterP.value();\r
+ if (pattern != NULL) delete pattern;\r
+ }\r
+ consumptionPattern.clear();\r
+ lengthCP = -1; \r
+} \r
+\r
+void FunctionalBlock::clearProductionPattern() {\r
+ QMapIterator<AbstractInterface*, QList<char>* > iterP(productionPattern); \r
+ while (iterP.hasNext()) {\r
+ iterP.next();\r
+ QList<char>* pattern = iterP.value();\r
+ if (pattern != NULL) delete pattern;\r
+ }\r
+ productionPattern.clear();\r
+ lengthPP = -1;\r
+} \r
+\r
+void FunctionalBlock::clearInputPattern() {\r
+ \r
+ QMapIterator<AbstractInterface*,QList<char>* > iterI(inputPattern);\r
+ while (iterI.hasNext()) {\r
+ iterI.next();\r
+ QList<char>* pattern = iterI.value();\r
+ if (pattern != NULL) delete pattern;\r
+ }\r
+ inputPattern.clear();\r
+ lengthIP = -1;\r
+}\r
+\r
+int FunctionalBlock::createTriggers() {\r
+ triggers.clear();\r
+ /* NB: this method returns the number of executions that have been started\r
+ but not necessary completed.\r
+ */\r
+ if (delta <= 0) return 0; \r
+ int offset = 0;\r
+ // search for the first exec.\r
+ while ((offset < lengthIP) && (! isValidDataGroup(inputPattern,offset))) offset++;\r
+ if (offset == lengthIP) return 0;\r
+ triggers.append(offset); \r
+ int nbGroup = 0;\r
+ for(int i = offset;i<lengthIP;i++) {\r
+ if (isValidDataGroup(inputPattern,i)) nbGroup++;\r
+ if (nbGroup == delta+1) {\r
+ triggers.append(i);\r
+ nbGroup = 1;\r
+ }\r
+ } \r
+ return triggers.size();\r
+}\r