use of com.rockwellcollins.atc.agree.agree.IntLitExpr in project VERDICT by ge-high-assurance.
the class Agree2Vdm method getVdmExpressionFromAgreeExpression.
// method to translate expression in Agree to expression in vdm
private Expression getVdmExpressionFromAgreeExpression(Expr agreeExpr, HashSet<String> dataTypeDecl, HashSet<String> nodeDecl, Model model) {
Expression vdmExpr = new Expression();
if (agreeExpr instanceof IfThenElseExpr) {
IfThenElseExpr ifexpr = (IfThenElseExpr) agreeExpr;
// for vdm model
IfThenElse ifThenElseVal = new IfThenElse();
Expression condExpr = getVdmExpressionFromAgreeExpression(ifexpr.getA(), dataTypeDecl, nodeDecl, model);
ifThenElseVal.setCondition(condExpr);
Expression thenBranchExpr = getVdmExpressionFromAgreeExpression(ifexpr.getB(), dataTypeDecl, nodeDecl, model);
ifThenElseVal.setThenBranch(thenBranchExpr);
Expression elseBranchExpr = getVdmExpressionFromAgreeExpression(ifexpr.getC(), dataTypeDecl, nodeDecl, model);
ifThenElseVal.setElseBranch(elseBranchExpr);
vdmExpr.setConditionalExpression(ifThenElseVal);
} else if (agreeExpr instanceof CallExpr) {
CallExpr callExpr = (CallExpr) agreeExpr;
DoubleDotRef ddref = (DoubleDotRef) callExpr.getRef();
if (ddref.getElm() instanceof NodeDef) {
NodeDef nodeDef = (NodeDef) ddref.getElm();
addNodeDefToTypeDeclarations(nodeDef, dataTypeDecl, nodeDecl, model);
// create node call in vdm model
NodeCall vdmNodeCall = new NodeCall();
// setting node name
vdmNodeCall.setNodeId(nodeDef.getName());
EList<Expr> callExprArgs = callExpr.getArgs();
// below are the parameters passed to the function call
for (Expr callExprArg : callExprArgs) {
Expression argExpr = getVdmExpressionFromAgreeExpression(callExprArg, dataTypeDecl, nodeDecl, model);
// setting node arguments
vdmNodeCall.getArgument().add(argExpr);
}
vdmExpr.setCall(vdmNodeCall);
} else {
System.out.println("Unmapped Typed");
}
} else if (agreeExpr instanceof NamedElmExpr) {
NamedElmExpr nmExpr = (NamedElmExpr) agreeExpr;
vdmExpr.setIdentifier(nmExpr.getElm().getName());
// define corresponding types in the VDM if not already defined
if (nmExpr.getElm() instanceof Arg) {
Arg nmElmArg = (Arg) nmExpr.getElm();
// define corresponding type in the VDM if not already defined
Type argType = nmElmArg.getType();
defineDataTypeDataImplementationTypeInVDM(argType, dataTypeDecl, model);
} else if (nmExpr.getElm() instanceof Port) {
Port nmElmPort = (Port) nmExpr.getElm();
// define corresponding type in the VDM if not already defined
if (nmElmPort instanceof DataPortImpl) {
DataPort nmElmDataPort = (DataPort) nmElmPort;
DataSubcomponentType dSubCompType = nmElmDataPort.getDataFeatureClassifier();
defineDataTypeDataImplementationTypeInVDM(dSubCompType, dataTypeDecl, model);
} else if (nmElmPort instanceof EventDataPortImpl) {
EventDataPort nmElmDataPort = (EventDataPort) nmElmPort;
DataSubcomponentType dSubCompType = nmElmDataPort.getDataFeatureClassifier();
defineDataTypeDataImplementationTypeInVDM(dSubCompType, dataTypeDecl, model);
} else {
if (!(nmElmPort instanceof EventPort)) {
System.out.println("Unresolved Port Type");
}
}
} else if (nmExpr.getElm() instanceof ConstStatement) {
ConstStatement nmElmConstStatement = (ConstStatement) nmExpr.getElm();
String nmElmConstStatementName = nmElmConstStatement.getName();
// add const declaration to VDM if not already defined
if (!dataTypeDecl.contains(nmElmConstStatementName)) {
dataTypeDecl.add(nmElmConstStatementName);
ConstantDeclaration vdmConstDeclaration = new ConstantDeclaration();
vdmConstDeclaration.setName(nmElmConstStatementName);
vdmConstDeclaration.setDefinition(getVdmExpressionFromAgreeExpression(nmElmConstStatement.getExpr(), dataTypeDecl, nodeDecl, model));
vdmConstDeclaration.setDataType(getVdmTypeFromAgreeType(nmElmConstStatement.getType(), dataTypeDecl, model));
LustreProgram lustreProgram = model.getDataflowCode();
lustreProgram.getConstantDeclaration().add(vdmConstDeclaration);
model.setDataflowCode(lustreProgram);
}
} else {
System.out.println("Unresolved/unmapped NamedExprElm: " + nmExpr.getElm().getName());
}
} else if (agreeExpr instanceof SelectionExpr) {
// selection expression corresponds to record projection in VDM
RecordProjection vdmRecordProj = new RecordProjection();
SelectionExpr selExpr = (SelectionExpr) agreeExpr;
if (selExpr.getField() == null) {
System.out.println("Null Selection Expr field: " + selExpr.getField());
} else {
NamedElement field = selExpr.getField();
// set record-projection's reference
if (selExpr.getTarget() != null) {
// target can be NamedElmExpr or a SelectionExpr
vdmRecordProj.setRecordReference(getVdmExpressionFromAgreeExpression(selExpr.getTarget(), dataTypeDecl, nodeDecl, model));
}
// set record-projection's field id
vdmRecordProj.setFieldId(field.getName());
// also set the name of the field's type as the record-projection's record-type
if (field instanceof DataPortImpl) {
DataPort dport = (DataPort) field;
DataSubcomponentType dSubCompType = dport.getDataFeatureClassifier();
defineDataTypeDataImplementationTypeInVDM(dSubCompType, dataTypeDecl, model);
vdmRecordProj.setRecordType(dSubCompType.getName());
} else if (field instanceof DataSubcomponentImpl) {
DataSubcomponent dSubComp = (DataSubcomponent) field;
DataSubcomponentType dSubCompType = dSubComp.getDataSubcomponentType();
defineDataTypeDataImplementationTypeInVDM(dSubCompType, dataTypeDecl, model);
vdmRecordProj.setRecordType(dSubCompType.getName());
} else if (field instanceof ArgImpl) {
Arg arg = (Arg) field;
Type argType = arg.getType();
defineDataTypeDataImplementationTypeInVDM(argType, dataTypeDecl, model);
if (argType instanceof PrimType) {
vdmRecordProj.setRecordType(getDataTypeName(argType));
} else {
System.out.println("Unresolved Arg Type so not setting record-type in record-projection.");
}
} else {
System.out.println("Unresolved type of field.");
}
}
vdmExpr.setRecordProjection(vdmRecordProj);
} else if (agreeExpr instanceof BinaryExpr) {
BinaryExpr binExpr = (BinaryExpr) agreeExpr;
// for vdm
BinaryOperation binoper = new BinaryOperation();
// set left operand
Expression leftOperand = getVdmExpressionFromAgreeExpression(binExpr.getLeft(), dataTypeDecl, nodeDecl, model);
binoper.setLhsOperand(leftOperand);
// set right operand
Expression rightOperand = getVdmExpressionFromAgreeExpression(binExpr.getRight(), dataTypeDecl, nodeDecl, model);
binoper.setRhsOperand(rightOperand);
// set appropriate operator
String operator = binExpr.getOp();
if (operator.equalsIgnoreCase("->")) {
vdmExpr.setArrow(binoper);
} else if (operator.equalsIgnoreCase("=>")) {
vdmExpr.setImplies(binoper);
} else if (operator.equalsIgnoreCase("and")) {
vdmExpr.setAnd(binoper);
} else if (operator.equalsIgnoreCase("or")) {
vdmExpr.setOr(binoper);
} else if (operator.equalsIgnoreCase("=")) {
vdmExpr.setEqual(binoper);
} else if (operator.equalsIgnoreCase(">")) {
vdmExpr.setGreaterThan(binoper);
} else if (operator.equalsIgnoreCase("<")) {
vdmExpr.setLessThan(binoper);
} else if (operator.equalsIgnoreCase(">=")) {
vdmExpr.setGreaterThanOrEqualTo(binoper);
} else if (operator.equalsIgnoreCase("<=")) {
vdmExpr.setLessThanOrEqualTo(binoper);
} else if (operator.equalsIgnoreCase("+")) {
vdmExpr.setPlus(binoper);
} else if (operator.equalsIgnoreCase("-")) {
vdmExpr.setMinus(binoper);
} else if (operator.equalsIgnoreCase("!=") || operator.equalsIgnoreCase("<>")) {
vdmExpr.setNotEqual(binoper);
} else if (operator.equalsIgnoreCase("/")) {
vdmExpr.setDiv(binoper);
} else if (operator.equalsIgnoreCase("*")) {
vdmExpr.setTimes(binoper);
} else {
System.out.println("Unmapped binary operator: " + operator);
}
} else if (agreeExpr instanceof UnaryExpr) {
UnaryExpr unExpr = (UnaryExpr) agreeExpr;
Expression singleOperand = getVdmExpressionFromAgreeExpression(unExpr.getExpr(), dataTypeDecl, nodeDecl, model);
String operator = unExpr.getOp();
if (operator.equalsIgnoreCase("this")) {
vdmExpr.setCurrent(singleOperand);
} else if (operator.equalsIgnoreCase("not")) {
vdmExpr.setNot(singleOperand);
} else if (operator.equalsIgnoreCase("-")) {
vdmExpr.setNegative(singleOperand);
} else {
System.out.println("Unmapped unary operator.");
}
} else if (agreeExpr instanceof BoolLitExpr) {
BoolLitExpr boolExpr = (BoolLitExpr) agreeExpr;
vdmExpr.setBoolLiteral(boolExpr.getVal().getValue());
} else if (agreeExpr instanceof EnumLitExpr) {
EnumLitExpr enumExpr = (EnumLitExpr) agreeExpr;
// check if elm is DataImplementationImpl or DataTypeImpl -- if yes add definition to type declarations if not already present
DoubleDotRef enumType = enumExpr.getEnumType();
if (enumType.getElm() instanceof DataTypeImpl) {
org.osate.aadl2.DataType aadlDType = (org.osate.aadl2.DataType) enumType.getElm();
resolveAADLDataType(aadlDType, dataTypeDecl, model);
} else {
System.out.println("Unexpected Elm type for EnumLitExpr");
}
vdmExpr.setIdentifier(enumExpr.getValue());
} else if (agreeExpr instanceof PreExpr) {
PreExpr preExpr = (PreExpr) agreeExpr;
Expression expr = getVdmExpressionFromAgreeExpression(preExpr.getExpr(), dataTypeDecl, nodeDecl, model);
vdmExpr.setPre(expr);
} else if (agreeExpr instanceof RecordLitExpr) {
RecordLiteral vdmRecordLiteral = new RecordLiteral();
RecordLitExpr recLitExpr = (RecordLitExpr) agreeExpr;
if (recLitExpr.getRecordType() instanceof DoubleDotRef) {
DoubleDotRef recType = (DoubleDotRef) recLitExpr.getRecordType();
if (recType.getElm().getName() != null) {
// check if elm is DataImplementationImpl -- if yes add definition to type declarations if not already present
if (recType.getElm() instanceof DataImplementation) {
org.osate.aadl2.DataImplementation aadlDImpl = (org.osate.aadl2.DataImplementation) recType.getElm();
resolveAADLDataImplementationType(aadlDImpl, dataTypeDecl, model);
} else {
System.out.println("Unexpected Elm type for EnumLitExpr");
}
// set name of the record literal in the vdm model
vdmRecordLiteral.setRecordType(recType.getElm().getName());
// get args and arg-expr and set them as field identifier and value in the vdm model
EList<NamedElement> recLitArgs = recLitExpr.getArgs();
EList<Expr> recLitArgsExpr = recLitExpr.getArgExpr();
// below are the values set to variable
for (int ind = 0; ind < recLitArgs.size(); ind++) {
FieldDefinition fieldDef = new FieldDefinition();
fieldDef.setFieldIdentifier(recLitArgs.get(ind).getName());
fieldDef.setFieldValue(getVdmExpressionFromAgreeExpression(recLitArgsExpr.get(ind), dataTypeDecl, nodeDecl, model));
// set field definitions in the record literal in the vdm model
vdmRecordLiteral.getFieldDefinition().add(fieldDef);
}
vdmExpr.setRecordLiteral(vdmRecordLiteral);
} else {
System.out.println("Unexpected Literal's Record Type that has null named elm.");
}
} else {
System.out.println("Unresolved or unmapped record literal expression.");
}
} else if (agreeExpr instanceof IntLitExpr) {
IntLitExpr intLitExpr = (IntLitExpr) agreeExpr;
BigInteger bigInt = new BigInteger(intLitExpr.getVal());
vdmExpr.setIntLiteral(bigInt);
} else if (agreeExpr instanceof RealLitExpr) {
RealLitExpr realLitExpr = (RealLitExpr) agreeExpr;
BigDecimal bigDecimal = new BigDecimal(realLitExpr.getVal());
vdmExpr.setRealLiteral(bigDecimal);
} else if (agreeExpr instanceof EventExpr) {
EventExpr eventExpr = (EventExpr) agreeExpr;
if (eventExpr.getPort() != null) {
vdmExpr.setEvent(getVdmExpressionFromAgreeExpression(eventExpr.getPort(), dataTypeDecl, nodeDecl, model));
} else {
System.out.println("EventExpr does not have port infornation.");
}
} else if (agreeExpr instanceof RealCast) {
RealCast realCastExpr = (RealCast) agreeExpr;
vdmExpr.setToReal(getVdmExpressionFromAgreeExpression(realCastExpr.getExpr(), dataTypeDecl, nodeDecl, model));
} else {
System.out.println("Unresolved/umapped agree expr" + agreeExpr.toString());
}
return vdmExpr;
}
use of com.rockwellcollins.atc.agree.agree.IntLitExpr in project AGREE by loonwerks.
the class AGREESimulationState method getConstantLustreValue.
// Returns the raw value stored in the counterexample provided by JKind
public Value getConstantLustreValue(final int frameIndex, final Object constant) {
if (frameIndex < 0 || frameIndex > frameInfos.size()) {
throw new IllegalArgumentException("frameIndex is outside the valid range");
}
final ConstStatement constStatement = asConstant(constant);
final com.rockwellcollins.atc.agree.agree.Expr agreeExpr = constStatement.getExpr();
if (agreeExpr instanceof IntLitExpr) {
return new IntegerValue(new BigInteger(((IntLitExpr) agreeExpr).getVal(), 10));
} else if (agreeExpr instanceof RealLitExpr) {
BigDecimal bd = new BigDecimal(((RealLitExpr) agreeExpr).getVal());
if (bd.scale() < 0) {
bd = bd.setScale(0);
}
return new RealValue(new BigFraction(bd.unscaledValue(), BigInteger.TEN.pow(bd.scale())));
} else if (agreeExpr instanceof BoolLitExpr) {
return BooleanValue.fromBoolean(((BoolLitExpr) agreeExpr).getVal().getValue());
} else {
return null;
}
}
use of com.rockwellcollins.atc.agree.agree.IntLitExpr in project AMASE by loonwerks.
the class SafetyValidator method checkIntervalEqStatement.
/**
* Interval eq stmts:
* Checks:
* - Only primitive types supported for intervals.
* - The interval type matches high and low parameters of interval.
* - High and low parameters of interval are same type.
* @param intervalEq
*/
@Check(CheckType.FAST)
public void checkIntervalEqStatement(IntervalEq intervalEq) {
Arg arg = intervalEq.getLhs_int();
String typeName = "";
SafetyInterval interval = intervalEq.getInterv();
Expr low = interval.getLow();
Expr high = interval.getHigh();
if (arg.getType() instanceof PrimType) {
typeName = ((PrimType) arg.getType()).getName();
if (typeName.equalsIgnoreCase("bool")) {
error(arg, "Boolean intervals are not allowed. Only real or int intervals are supported.");
}
} else {
error(arg, "The only types that are supported for intervals are real and int.");
}
// Negative values are allowed: hence the check for UnaryExpr
if (low instanceof UnaryExpr) {
UnaryExpr unex_low = (UnaryExpr) low;
if (!(unex_low.getExpr() instanceof IntLitExpr) & !(unex_low.getExpr() instanceof RealLitExpr)) {
error(low, "Only real and integer types are supported for intervals.");
}
if (high instanceof UnaryExpr) {
UnaryExpr unex_high = (UnaryExpr) high;
if (!(unex_high.getExpr() instanceof IntLitExpr) & !(unex_high.getExpr() instanceof RealLitExpr)) {
error(high, "Only real and integer types are supported for intervals.");
}
testLowAndHighTypes(intervalEq, typeName, unex_low.getExpr(), unex_high.getExpr());
} else {
testLowAndHighTypes(intervalEq, typeName, unex_low.getExpr(), high);
}
} else {
testLowAndHighTypes(intervalEq, typeName, low, high);
}
}
use of com.rockwellcollins.atc.agree.agree.IntLitExpr in project AGREE by loonwerks.
the class Util method getDoubleValue.
public static Double getDoubleValue(Expr expr) {
Double result = Double.valueOf(0.0);
assert (AgreeJavaValidator.exprIsConst(expr));
if (expr instanceof NamedElement) {
if (expr instanceof ConstStatement) {
result = getDoubleValue(((ConstStatement) expr).getExpr());
}
} else if (expr instanceof SelectionExpr) {
NamedElement finalId = ((SelectionExpr) expr).getField();
if (finalId instanceof ConstStatement) {
result = getDoubleValue(((ConstStatement) finalId).getExpr());
}
} else if (expr instanceof RealLitExpr) {
result = Double.valueOf(((RealLitExpr) expr).getVal());
} else if (expr instanceof IntLitExpr) {
result = Double.valueOf(((IntLitExpr) expr).getVal());
} else if (expr instanceof BinaryExpr) {
BinaryExpr binExpr = (BinaryExpr) expr;
Double left = getDoubleValue(binExpr.getLeft());
Double right = getDoubleValue(binExpr.getRight());
switch(binExpr.getOp()) {
case "+":
result = left + right;
break;
case "-":
result = left - right;
break;
case "*":
result = left * right;
break;
case "/":
result = left / right;
break;
case "^":
result = Math.pow(left, right);
break;
default:
throw new AgreeException("binary expression is not evaluable as integer constant");
}
return result;
} else if (expr instanceof UnaryExpr) {
UnaryExpr unExpr = (UnaryExpr) expr;
Double right = getDoubleValue(unExpr.getExpr());
switch(unExpr.getOp()) {
case "-":
result = -right;
break;
default:
throw new AgreeException("unary expression is not evaluable as integer constant");
}
} else {
throw new AgreeException("expression is not evaluable as integer constant");
}
return result;
}
use of com.rockwellcollins.atc.agree.agree.IntLitExpr in project AGREE by loonwerks.
the class AgreeValidator method evaluateIndexExpr.
// TODO: This is really minimal -- need to create a proper AGREE static expression evaluation infrastructure
private BigInteger evaluateIndexExpr(Expr expr) {
BigInteger result = null;
if (expr instanceof IntLitExpr) {
return new BigInteger(((IntLitExpr) expr).getVal());
} else if (expr instanceof UnaryExpr) {
UnaryExpr unaryExpr = (UnaryExpr) expr;
BigInteger val = evaluateIndexExpr(unaryExpr.getExpr());
if ("-".equals(unaryExpr.getOp()) && val != null) {
return val.negate();
}
} else if (expr instanceof BinaryExpr) {
BinaryExpr binaryExpr = (BinaryExpr) expr;
BigInteger leftVal = evaluateIndexExpr(binaryExpr.getLeft());
BigInteger rightVal = evaluateIndexExpr(binaryExpr.getRight());
if (leftVal != null && rightVal != null) {
if ("+".equals(binaryExpr.getOp())) {
return leftVal.add(rightVal);
} else if ("-".equals(binaryExpr.getOp())) {
return leftVal.subtract(rightVal);
} else if ("*".equals(binaryExpr.getOp())) {
return leftVal.multiply(rightVal);
} else if ("/".equals(binaryExpr.getOp()) || "div".equals(binaryExpr.getOp())) {
return leftVal.divide(rightVal);
} else if ("mod".equals(binaryExpr.getOp())) {
return leftVal.mod(rightVal);
}
}
} else if (expr instanceof NamedElmExpr) {
return evaluateIndexNamedElement(((NamedElmExpr) expr).getElm());
} else if (expr instanceof SelectionExpr) {
return evaluateIndexNamedElement(((SelectionExpr) expr).getField());
}
return result;
}
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