/* Copyright or (C) or Copr. GET / ENST, Telecom-Paris, Ludovic Apvrille
*
* ludovic.apvrille AT enst.fr
*
* This software is a computer program whose purpose is to allow the
* edition of TURTLE analysis, design and deployment diagrams, to
* allow the generation of RT-LOTOS or Java code from this diagram,
* and at last to allow the analysis of formal validation traces
* obtained from external tools, e.g. RTL from LAAS-CNRS and CADP
* from INRIA Rhone-Alpes.
*
* This software is governed by the CeCILL license under French law and
* abiding by the rules of distribution of free software. You can use,
* modify and/ or redistribute the software under the terms of the CeCILL
* license as circulated by CEA, CNRS and INRIA at the following URL
* "http://www.cecill.info".
*
* As a counterpart to the access to the source code and rights to copy,
* modify and redistribute granted by the license, users are provided only
* with a limited warranty and the software's author, the holder of the
* economic rights, and the successive licensors have only limited
* liability.
*
* In this respect, the user's attention is drawn to the risks associated
* with loading, using, modifying and/or developing or reproducing the
* software by the user in light of its specific status of free software,
* that may mean that it is complicated to manipulate, and that also
* therefore means that it is reserved for developers and experienced
* professionals having in-depth computer knowledge. Users are therefore
* encouraged to load and test the software's suitability as regards their
* requirements in conditions enabling the security of their systems and/or
* data to be ensured and, more generally, to use and operate it in the
* same conditions as regards security.
*
* The fact that you are presently reading this means that you have had
* knowledge of the CeCILL license and that you accept its terms.
*/
package avatartranslator.tosysmlv2;
import java.io.FileReader;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.function.BiConsumer;
import avatartranslator.*;
import avatartranslator.tosysmlv2.AvatarFromSysMLSyntax.*;
import java_cup.runtime.ComplexSymbolFactory;
import static java.lang.System.out;
public class AvatarFromSysML {
private AvatarSpecification avSpec;
private StxModel stxSpec;
private ArrayList<AvatarTransition> transitionList;
private HashMap<StxSignal, AvatarSignal> signalMap;
private HashMap<StxBlock, AvatarBlock> blockMap;
private HashMap<StxState, AvatarStateMachineElement> stateMap;
private List<AvatarFromSysMLError> errors;
public AvatarFromSysML(){
avSpec = null;
stxSpec = null;
transitionList = new ArrayList<AvatarTransition>();
signalMap = new HashMap<StxSignal, AvatarSignal>();
blockMap = new HashMap<StxBlock, AvatarBlock>();
stateMap = new HashMap<StxState, AvatarStateMachineElement>();
errors = null;
}
private void addError(AvatarFromSysMLError _err) {
errors.add(_err);
out.println(_err.toString());
}
public AvatarSpecification sysMLtoSpec(String _fileName) {
AvatarFromSysMLParser parser;
try { parser =
new AvatarFromSysMLParser(new AvatarFromSysMLLexer(new FileReader(_fileName)),
new ComplexSymbolFactory()); }
catch (java.lang.Exception e) {
e.printStackTrace(out);
return new AvatarSpecification("DummySpec", null);
}
try { stxSpec = parser.parseModel(); }
catch (java.lang.Exception e) {
e.printStackTrace(out);
return new AvatarSpecification("DummySpec", null);
}
errors = stxSpec.getErrors();
avSpec = new AvatarSpecification("FromSysMLV2_EXAMPLE_SPECIFICATION",null);
transitionList.clear();
signalMap.clear();
blockMap.clear();
stateMap.clear();
buildDataTypes();
buildBlocks();
buildRelations();
return avSpec;
}
private AvatarBlock getBlock(StxBlock _b) {
AvatarBlock b = blockMap.get(_b);
if (b == null) {
b = new AvatarBlock(_b.getName(), avSpec, null);
blockMap.put(_b, b);
}
return b;
}
private AvatarSignal getSignal(StxSignal _b) {
AvatarSignal b = signalMap.get(_b);
if (b == null) {
if (_b.isInput())
b = new AvatarSignal(_b.getName(), AvatarSignal.IN, null);
else
b = new AvatarSignal(_b.getName(), AvatarSignal.OUT, null);
signalMap.put(_b, b);
}
return b;
}
private AvatarAttribute getAttributeByName(String _name, AvatarBlock _block) {
List<AvatarAttribute> l = _block.getAttributes();
int size = l.size();
for (int i = 0; i < size; i++)
if(l.get(i).getName().equals(_name)) return l.get(i);
return null;
}
private AvatarAttribute getTimerByName(String _name, AvatarBlock _block) {
AvatarAttribute res = getAttributeByName(_name, _block);
if (res != null && res.getType() == AvatarType.TIMER) return res;
return null;
}
private AvatarStateMachineElement getState(StxState _s, AvatarBlock _b) {
AvatarStateMachineElement s = stateMap.get(_s);
if (s == null) {
switch(_s.getType()) {
case AvatarFromSysMLSyntax.STXSTARTSTATE :
s = new AvatarStartState("StartState", null, _b);
break;
case AvatarFromSysMLSyntax.STXSTANDARDSTATE :
s = new AvatarState(_s.getName(), null, _b);
break;
case AvatarFromSysMLSyntax.STXRANDOMSTATE :
s = new AvatarRandom(_s.getName(), null, _b);
break;
case AvatarFromSysMLSyntax.STXCOUNTSTATE :
s = new AvatarQueryOnSignal(_s.getName(), getSignal(_s.getSignal()),
getAttributeByName(_s.getVariable(),_b), null, _b);
break;
case AvatarFromSysMLSyntax.STXSTOPSTATE :
case AvatarFromSysMLSyntax.STXSENDSTATE :
case AvatarFromSysMLSyntax.STXRECEIVESTATE :
s = new AvatarActionOnSignal(_s.getName(), null, _b);
break;
case AvatarFromSysMLSyntax.STXPRESENDSTATE :
case AvatarFromSysMLSyntax.STXPRERECEIVESTATE :
addError(new AvatarFromSysMLError(AvatarFromSysMLError.BUGERROR, null,
"adding precom state (AvatarFromSysML.getState)", null));
break;
case AvatarFromSysMLSyntax.STXSETTIMERSTATE :
s = new AvatarSetTimer(_s.getName(), null, _b);
break;
case AvatarFromSysMLSyntax.STXRESETTIMERSTATE :
s = new AvatarResetTimer(_s.getName(), null, _b);
break;
case AvatarFromSysMLSyntax.STXEXPIRETIMERSTATE :
s = new AvatarExpireTimer(_s.getName(), null, _b);
}
if (s != null) stateMap.put(_s, s);
}
return s;
}
// BUILDING DATATYPES %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
private class BuildDataType implements BiConsumer<String, StxDataType> {
public BuildDataType(){}
public void accept(String n, StxDataType d) {
AvatarDataType dataType = new AvatarDataType(d.getName(),null);
avSpec.addDataType(dataType);
int nbFields = d.getSize();
for (int i = 0; i < nbFields; i++) {
String type = d.getFieldType(i);
if(type.equals("Integer")) {
AvatarAttribute aa = new AvatarAttribute(d.getFieldName(i),AvatarType.INTEGER,null,null);
dataType.addAttribute(aa, null);
}
else if(type.equals("Boolean")) {
AvatarAttribute aa = new AvatarAttribute(d.getFieldName(i),AvatarType.BOOLEAN,null,null);
dataType.addAttribute(aa, null);
}
else {
AvatarAttribute aa = new AvatarAttribute(d.getFieldName(i),AvatarType.UNDEFINED,null,null);
dataType.addAttribute(aa, type);
}
}
}
}
private void buildDataTypes(){
List<AvatarDataType> dtList = avSpec.getDataTypes();
stxSpec.getDataTypeMap().forEach(new BuildDataType());
int size = dtList.size();
for(int i = 0; i < size; i++) {
AvatarDataType dt = dtList.get(i);
AvatarDataType.finalize(dt, avSpec);
if (dt.getFullSize() == -1)
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, null, "datatype " + dt.getName() + " is not well defined", null));
}
}
// BUILDING BLOCKS (but not statemachines) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
private class BuildBlock implements BiConsumer<String, StxBlock> {
List<AvatarDataType> dataTypeList;
public BuildBlock(){}
public void accept(String n, StxBlock blk) {
if (!blk.isDeclared()) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR,
"block " + blk.getName() +"has been used but has not been declared"));
}
AvatarBlock theBlock = getBlock(blk);
avSpec.addBlock(theBlock);
// set father
StxBlock fth = blk.getFather();
if (fth != null) theBlock.setFather(getBlock(fth));
// add Attributes
int size = blk.getNbAttributes();
for (int i = 0; i < size; i++) {
StxAttribute a = blk.getAttribute(i);
AvatarAttribute aa;
if (a.getType().equals("Integer")) {
aa = new AvatarAttribute(a.getName(), AvatarType.INTEGER, theBlock, null);
aa.setInitialValue(a.getInit());
}
else if (a.getType().equals("Boolean")) {
aa = new AvatarAttribute(a.getName(), AvatarType.BOOLEAN, theBlock, null);
aa.setInitialValue(a.getInit());
}
else {
aa = new AvatarAttribute(a.getName(), AvatarType.UNDEFINED, theBlock, null);
// aa.setInitialValue(a.getInit());
AvatarDataType adt = avSpec.getDataTypeByName(a.getType());
aa.setDataType(adt);
}
theBlock.addOriginalAttribute(aa);
aa.setAsConstant(false);
}
// add Constants
size = blk.getNbConstants();
for (int i = 0; i < size; i++) {
StxAttribute a = blk.getConstant(i);
AvatarAttribute aa;
if (a.getType().equals("Integer")) {
aa = new AvatarAttribute(a.getName(), AvatarType.INTEGER, theBlock, null);
aa.setInitialValue(a.getInit());
theBlock.addAttribute(aa);
aa.setAsConstant(true);
}
else if (a.getType().equals("Boolean")) {
aa = new AvatarAttribute(a.getName(), AvatarType.BOOLEAN, theBlock, null);
aa.setInitialValue(a.getInit());
theBlock.addAttribute(aa);
aa.setAsConstant(true);
}
else
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR,
a.getLeft(), "datatype for constants is not supported", null));
}
// add Timers
size = blk.getNbTimers();
for (int i = 0; i < size; i++) {
AvatarAttribute aa = new AvatarAttribute(blk.getTimer(i).getName(), AvatarType.TIMER, theBlock, null);
theBlock.addOriginalAttribute(aa);
aa.setAsConstant(false);
}
// add Methods
size = blk.getNbMethods();
for (int i = 0; i < size; i++) {
StxMethod sm = blk.getMethod(i);
AvatarMethod am = new AvatarMethod(sm.getName(),null);
theBlock.addMethod(am);
buildProfile(sm, am, theBlock);
String returnType = sm.getReturnType();
if (returnType == null || returnType.length() == 0) continue;
if (returnType.equals("Integer"))
am.addOriginalReturnParameter(new AvatarAttribute("return", AvatarType.INTEGER, theBlock, null));
else if (returnType.equals("Boolean"))
am.addOriginalReturnParameter(new AvatarAttribute("return", AvatarType.BOOLEAN, theBlock, null));
else {
AvatarDataType adt = avSpec.getDataTypeByName(returnType);
if (adt == null)
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, sm.getLeft(),
"unknown type for method return parameter", null));
AvatarAttribute ret = new AvatarAttribute("return", AvatarType.UNDEFINED, theBlock, null);
ret.setDataType(adt);
am.addOriginalReturnParameter(ret);
}
}
// add Signals (build profile delayed)
size = blk.getNbSignals();
for (int i = 0; i < size; i++) {
StxSignal ss = blk.getSignal(i);
AvatarSignal as = getSignal(ss);
theBlock.addSignal(as);
StxChannel ch = ss.getChannel();
if (ch == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, ss.getLeft(),
"channel of signal " + ss.getName() + " has not been set"));
continue;
}
if (!ch.isDeclared()) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, ss.getLeft(),
"channel of signal " + theBlock.getName() + "." + ss.getName() + " has not been declared"));
continue;
}
if (ss.isInput()) {
StxInMessage im = ss.getChannel().getInProfile();
if (im == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, ss.getLeft(),
"input profile of signal " + ss.getName() + " has not been set"));
continue;
}
buildProfile(im, as, theBlock);
}
else {
StxOutMessage om = ss.getChannel().getOutProfile();
if (om == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, ss.getLeft(),
"output profile of signal " + ss.getName() + " has not been set"));
continue;
}
buildProfile(om, as, theBlock);
}
}
// add states
StxState[] states = blk.getStates();
AvatarStateMachine asm = theBlock.getStateMachine();
AvatarStateMachineElement theSourceState;
size = states.length;
for (int i = 0; i < size; i++) {
if (! states[i].isDeclared()) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR,
"state " + theBlock.getName() + "." + states[i].getName() + " is used but not declared"));
continue;
}
byte stateType = states[i].getType();
if (stateType != AvatarFromSysMLSyntax.STXPRESENDSTATE &&
stateType != AvatarFromSysMLSyntax.STXPRERECEIVESTATE &&
stateType != AvatarFromSysMLSyntax.STXSTOPSTATE ) {
theSourceState = getState(states[i], theBlock);
asm.addElement(theSourceState);
if (stateType == AvatarFromSysMLSyntax.STXRANDOMSTATE) {
((AvatarRandom) theSourceState).setValues(states[i].getMinValue(), states[i].getMaxValue());
((AvatarRandom) theSourceState).setVariable(states[i].getVariable());
} else if (stateType == AvatarFromSysMLSyntax.STXSTARTSTATE)
asm.setStartState((AvatarStartState) theSourceState);
// add transitions
List<StxTransition> transitions = states[i].getTransitions();
int tsize = transitions.size();
for (int j = 0; j < tsize; j++) {
StxTransition transition = transitions.get(j);
if (transition == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, states[i].getLeft(),
"something is wrong in state " + states[i].getName() + " : null transition found"));
continue;
}
if (! transition.isDeclared()) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getRleft(),
"transition from state " + states[i].getName() + " in block" + theBlock.getName() +
"." + states[i].getName() + " is used but not declared" ));
continue;
}
AvatarTransition theTransition = new AvatarTransition(theBlock,"", null);
transitionList.add(theTransition);
asm.addElement(theTransition);
theSourceState.addNext(theTransition);
theTransition.setGuard("",transition.getGuard());
String minDelay = transition.getMinDelay().trim();
String maxDelay = transition.getMaxDelay().trim();
if (minDelay.equals(maxDelay)) maxDelay = "";
theTransition.setDelays("","", minDelay, maxDelay);
setDistributionLaw(theTransition, transition.getDelayDistributionLaw(),transition.getDelayExtra(), transition);
// add actions
List<StxAction> actions = transition.getActions(); // should exist only in some cases...
int asize = actions.size();
for (int k = 0; k < asize; k++) {
StxAction action = actions.get(k);
if(action.getType() == AvatarFromSysMLSyntax.STXASSIGNACTION){
String leftHandStr = action.getTarget();
String rightHandStr;
StxTerm value = action.getValue();
if (value instanceof StxId){ rightHandStr = ((StxId)value).getString(); }
else if (value instanceof StxExpr){ rightHandStr = ((StxExpr)value).getString(); }
else { rightHandStr = extendCall((StxCall)value,blk); }
theTransition.addAction("", leftHandStr + "=" + rightHandStr);
}
else { // STXMETHODACTION
if (action.getValue() instanceof StxCall) { // else ERROR
String termStr = extendCall((StxCall)action.getValue(),blk);
theTransition.addAction("", termStr);
}
}
}
if (transition.getTarget() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"something is wrong in transition : no target defined", transition.getRleft()));
continue;
}
if (transition.getTarget().getType() == AvatarFromSysMLSyntax.STXPRESENDSTATE ||
transition.getTarget().getType() == AvatarFromSysMLSyntax.STXPRERECEIVESTATE) {
if (transition.getTarget().getTransitions().size() == 0 ||
transition.getTarget().getTransition(0) == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getTarget().getLeft(),
"something is wrong in precommunication state " + transition.getTarget().getName() +
" : no outgoing transition"));
continue;
}
byte type = transition.getTarget().getType();
transition = transition.getTarget().getTransition(0);
if (type == AvatarFromSysMLSyntax.STXPRESENDSTATE &
! ( ( transition.getTarget().getType() == AvatarFromSysMLSyntax.STXSENDSTATE &&
transition.getType() == AvatarFromSysMLSyntax.STXSENDTRANSITION ) ||
( transition.getTarget().getType() == AvatarFromSysMLSyntax.STXSETTIMERSTATE &&
transition.getType() == AvatarFromSysMLSyntax.STXSETTIMERTRANSITION ) ||
( transition.getTarget().getType() == AvatarFromSysMLSyntax.STXRESETTIMERSTATE &&
transition.getType() == AvatarFromSysMLSyntax.STXRESETTIMERTRANSITION ) )) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getTarget().getLeft(),
"outgoing transitions from pre-send state must be sending transitions leading to some sending state " +
"(send/set timer /reset timer)", transition.getLeft()));
continue;
}
if (type == AvatarFromSysMLSyntax.STXPRERECEIVESTATE &
! ( ( transition.getTarget().getType() == AvatarFromSysMLSyntax.STXRECEIVESTATE &&
transition.getType() == AvatarFromSysMLSyntax.STXRECEIVETRANSITION ) ||
( transition.getTarget().getType() == AvatarFromSysMLSyntax.STXEXPIRETIMERSTATE &&
transition.getType() == AvatarFromSysMLSyntax.STXEXPIRETIMERTRANSITION ) )) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getTarget().getLeft(),
"outgoing transitions from pre-reveive state must be sending transitions leading to some " +
"receivinging state (receive/expire timer)", transition.getLeft()));
continue;
}
}
AvatarStateMachineElement tgtState;
if (transition.getTarget().getType() == AvatarFromSysMLSyntax.STXSTOPSTATE) {
if (transition.getTarget().getTransitions().size() != 0) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWWARNING, transition.getTarget().getLeft(),
"stopstate should not have outgoing transitions"));
}
tgtState = new AvatarStopState("StopState", null, theBlock);
asm.addElement(tgtState);
}
else tgtState = getState(transition.getTarget(), theBlock);
theTransition.addNext(tgtState);
if (transition.getType() == AvatarFromSysMLSyntax.STXSENDTRANSITION) {
if(tgtState instanceof AvatarActionOnSignal) {
AvatarActionOnSignal state = (AvatarActionOnSignal)tgtState;
if (transition.getSignal() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getRleft(),
"sending transition should have an associated signal", transition.getLeft()));
continue;
}
state.setSignal( getSignal(transition.getSignal()));
if (state.getSignal().isIn()) {
new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getRleft(),
"signal of sending transition must be an output signal", transition.getSignal().getLeft());
continue;
}
if (! transition.getSignal().isDeclared()) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, transition.getRleft(),
"transition uses a signal " + transition.getSignal().getName() + " that has not been declared"));
continue;
}
ArrayList<StxTerm> sendPayload = transition.getSendPayload();
if (sendPayload != null) {
int nbParam = sendPayload.size();
for(int u = 0; u < nbParam; u++) {
StxTerm p = sendPayload.get(u);
if (p instanceof StxId){ state.addOriginalValue(((StxId)p).getString()); }
else if (p instanceof StxExpr){ state.addOriginalValue( ((StxExpr)p).getString() ); }
else { state.addOriginalValue( extendCall((StxCall)p,blk) ); }
}
}
}
else {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"sending transition should lead to a send state", transition.getRleft()));
}
}
else if (transition.getType() == AvatarFromSysMLSyntax.STXRECEIVETRANSITION) {
if(tgtState instanceof AvatarActionOnSignal) {
AvatarActionOnSignal state = (AvatarActionOnSignal)tgtState;
if (transition.getSignal() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getRleft(),
"receiving transition should have an associated signal", transition.getLeft()));
continue;
}
state.setSignal(getSignal(transition.getSignal()));
if (! transition.getSignal().isDeclared()) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, transition.getRleft(),
"transition uses a signal " + transition.getSignal().getName() + " that has not been declared"));
continue;
}
if (state.getSignal().isOut()) {
new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getRleft(),
"signal of receiving transition must be an input signal", transition.getSignal().getLeft());
continue;
}
if (transition.getSignal().getChannel() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getRleft(),
"signal of receiving transition doesn't have an associated channel", transition.getSignal().getLeft()));
continue;
}
StxOutMessage profile = transition.getSignal().getChannel().getOutProfile();
if (profile != null) {
HashMap<String, String> receivePayload = transition.getReceivePayload();
int nbParams = profile.getSize();
for (int k = 0; k < nbParams; k++) {
state.addOriginalValue(receivePayload.get(profile.getFieldName(k)));
}
}
}
else {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"receiving transition should lead to a receive state", transition.getRleft()));
}
}
else if (transition.getType() == AvatarFromSysMLSyntax.STXSETTIMERTRANSITION) {
if(tgtState instanceof AvatarSetTimer) {
AvatarSetTimer state = (AvatarSetTimer) tgtState;
if (transition.getTimer() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"set-timer transition has no associated timer", transition.getRleft()));
}
state.setTimer(getTimerByName(transition.getTimer(), theBlock));
if (transition.getSendPayload() == null || transition.getSendPayload().size() != 1) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"payload of set-timer transition is not well formed", transition.getRleft()));
continue;
}
state.setTimerValue(((StxExpr)transition.getSendPayload().get(0)).getString().replaceAll(".","__"));
}
else {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"set-timer transition should lead to a set-timer state", transition.getRleft()));
}
}
else if (transition.getType() == AvatarFromSysMLSyntax.STXRESETTIMERTRANSITION) {
if(tgtState instanceof AvatarResetTimer) {
AvatarResetTimer state = (AvatarResetTimer) tgtState;
if (transition.getTimer() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"reset-timer transition has no associated timer", transition.getRleft()));
}
state.setTimer(getTimerByName(transition.getTimer(), theBlock));
}
else {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"reset-timer transition should lead to a reset-timer state", transition.getRleft()));
}
}
else if (transition.getType() == AvatarFromSysMLSyntax.STXEXPIRETIMERTRANSITION) {
if(tgtState instanceof AvatarExpireTimer) {
AvatarExpireTimer state = (AvatarExpireTimer) tgtState;
if (transition.getTimer() == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"expire-timer transition has no associated timer", transition.getRleft()));
}
state.setTimer(getTimerByName(transition.getTimer(), theBlock));
}
else {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, transition.getLeft(),
"expire-timer transition should lead to a expire-timer state", transition.getRleft()));
}
}
else {}
}
}
}
}
}
private void buildBlocks(){
stxSpec.getBlockMap().forEach(new BuildBlock());
}
private void setDistributionLaw(AvatarTransition _t, String distributionLaw, HashMap<String,String> delayExtra, StxTransition _st) {
int law = -1;
int size;
if (distributionLaw == null || distributionLaw.equals("")) law = AvatarTransition.DELAY_UNIFORM_LAW;
else {
size = _t.DISTRIBUTION_LAWS.length;
for (int i = 0; i < size; i++) {
if (_t.DISTRIBUTION_LAWS[i].equals(distributionLaw)) {
law = i;
break;
}
}
if (law == -1) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.HIGHERROR, _st.getLeft(),
"transition with unknown transition law : " + distributionLaw + " (set to uniform)"));
law = AvatarTransition.DELAY_UNIFORM_LAW;
}
}
String extra1 = _t.LABELS_OF_EXTRA_ATTRIBUTES_1[law];
String extra2 = _t.LABELS_OF_EXTRA_ATTRIBUTES_2[law];
size = _t.NB_OF_EXTRA_ATTRIBUTES[law];
String tmpString;
if (size > 0) {
tmpString = extra1;
extra1 = delayExtra.get(extra1);
if (extra1 == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, _st.getLeft(),
"transition law : " + distributionLaw + " requires a " + tmpString + " parameter"));
}
if (size > 1) {
tmpString = extra2;
extra2 = delayExtra.get(extra2);
if (extra2 == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, _st.getLeft(),
"transition law : " + distributionLaw + " requires a " + tmpString + " parameter"));
}
}
}
if (delayExtra.size() > size) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWWARNING, _st.getLeft(),
"transition law : " + distributionLaw + " has too much parameters"));
}
_t.setDistributionLaw(law, extra1, extra2);
}
private void buildProfile(StxStructure ss, AvatarMethod am, AvatarBlock b) {
AvatarAttribute aa;
int size = ss.getSize();
for (int i = 0; i < size; i++) {
String type = ss.getFieldType(i);
if (type.equals("Integer")){
aa = new AvatarAttribute(ss.getFieldName(i), AvatarType.INTEGER, b, null);
am.addOriginalParameter(aa);
aa.setAsConstant(false);
} else if (type.equals("Boolean")) {
aa = new AvatarAttribute(ss.getFieldName(i), AvatarType.BOOLEAN, b, null);
am.addOriginalParameter(aa);
aa.setAsConstant(false);
} else {
AvatarDataType adt = avSpec.getDataTypeByName(type);
if (adt == null) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWWARNING, ss.getLeft(),
"message profile uses undefined datatype " + type));
}
aa = new AvatarAttribute(ss.getFieldName(i), AvatarType.UNDEFINED, b, null);
aa.setDataType(adt);
am.addOriginalParameter(aa);
aa.setAsConstant(false);
}
}
}
private String getStxAttributeType(String name, StxBlock blk){
int size = blk.getNbAttributes();
for (int i = 0; i < size; i++) {
if (blk.getAttribute(i).getName().equals(name)) return blk.getAttribute(i).getType();
}
return null;
}
/*
private String getStxPathType(String s, StxBlock b) {
String[] path = s.split("__");
String type = getStxAttributeType(path[0], b);
int size = path.length;
for (int i = 1; i < size; i++) {
AvatarDataType adt = avSpec.getDataTypeByName(type);
if (adt == null) return null;
int nbFields = adt.getAttributeNb();
int j;
for (j = 0; j < nbFields; j++)
if (adt.getAttribute(j).getName().equals(path[i])) break;
if (j == nbFields) return null;
AvatarType adtType = adt.getAttribute(j).getType();
if (adtType == AvatarType.INTEGER)
type = "Integer";
else if (adtType == AvatarType.BOOLEAN)
type = "Boolean";
else
type = adt.getDataTypeName(j);
}
return type;
}
*/
private String extendCall (StxCall call, StxBlock b) {
StringBuffer result = new StringBuffer();
int size = call.getNbIdents();
int i;
for (i =0 ; i < size; i++) {
result.append(call.getSegment(i));
result.append(call.getIdent(i));
}
result.append(call.getSegment(i));
return result.toString();
}
// BUILD RELATIONS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
private void buildRelations(){
stxSpec.getRelationMap().forEach(new BuildRelation());
}
private class BuildRelation implements BiConsumer<String, StxRelation> {
public BuildRelation() {
}
public void accept(String n, StxRelation r) {
AvatarBlock blk1 = getBlock(r.getBlock1());
AvatarBlock blk2 = getBlock(r.getBlock2());
if (blk1.equals("") || blk2.equals("")) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWERROR, r.getLeft(),
"some block name in relation is empty"));
}
AvatarRelation theRelation = new AvatarRelation(n, blk1, blk2, null);
avSpec.addRelation(theRelation);
theRelation.setAsynchronous(r.getAsynchronous());
theRelation.setPrivate(r.getPrivate());
theRelation.setLossy(r.getLossy());
theRelation.setBlocking(r.getBlocking());
theRelation.setSizeOfFIFO(r.getFifoSize());
int size = r.getSize();
if (size == 0) {
addError(new AvatarFromSysMLError(AvatarFromSysMLError.LOWWARNING, r.getLeft(),
"relation is empty"));
}
for (int i = 0; i < size; i++) {
StxChannel c = r.getChannel(i);
c.commuteSignals(r.getBlock1().getName());
theRelation.addSignals(getSignal(c.getSignalA()),getSignal(c.getSignalB()));
}
}
}
}