Example 11 with Referenced_Type
use of org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type in project titan.EclipsePlug-ins by eclipse.
the class Type method checkThisVariant.
@Override
public /**
* {@inheritDoc}
*/
void checkThisVariant(final CompilationTimeStamp timestamp, final SingleWithAttribute singleWithAttribute, final boolean global) {
final IType type = getTypeWithCodingTable(timestamp, false);
if (type == null) {
// FIXME as only RAW is supported for now, we can not report this error
// if (!global) {
// singleWithAttribute.getLocation().reportSemanticError(MessageFormat.format("No encoding rules defined for type `{0}''", getTypename()));
// }
} else {
final List<String> codingStrings = singleWithAttribute.getAttributeSpecification().getEncodings();
// gather the built-in codecs referred to by the variant's encoding strings
final ArrayList<MessageEncoding_type> codings = new ArrayList<IType.MessageEncoding_type>();
boolean erroneous = false;
if (codingStrings == null) {
if (type.getCodingTable().size() > 1) {
if (!global) {
singleWithAttribute.getLocation().reportSemanticError(MessageFormat.format("The encoding reference is mandatory for variant attributes of type `{0}''", getTypename()));
}
erroneous = true;
} else if (type.getCodingTable().get(0).builtIn) {
codings.add(type.getCodingTable().get(0).builtInCoding);
} else {
// PER or custom encoding
final MessageEncoding_type coding = "PER".equals(type.getCodingTable().get(0).customCoding.name) ? MessageEncoding_type.PER : MessageEncoding_type.CUSTOM;
singleWithAttribute.getLocation().reportSemanticWarning(MessageFormat.format("Variant attributes related to `{0}'' encoding are ignored", coding.getEncodingName()));
}
} else {
for (int i = 0; i < codingStrings.size(); i++) {
final String encodingString = codingStrings.get(i);
final MessageEncoding_type coding = getEncodingType(encodingString);
if (!hasEncoding(timestamp, coding, encodingString)) {
erroneous = true;
// FIXME RAW restriction only exists because that is the only supported encoding right now
if (!global && coding == MessageEncoding_type.RAW) {
if (coding == MessageEncoding_type.CUSTOM) {
singleWithAttribute.getLocation().reportSemanticError(MessageFormat.format("Type `{0}'' does not support {1} encoding", getTypename(), coding.getEncodingName()));
} else {
singleWithAttribute.getLocation().reportSemanticError(MessageFormat.format("Type `{0}'' does not support custom encoding `{1}''", getTypename(), encodingString));
}
}
} else if (coding != MessageEncoding_type.PER && coding != MessageEncoding_type.CUSTOM) {
codings.add(coding);
} else {
// PER or custom encoding
singleWithAttribute.getLocation().reportSemanticWarning(MessageFormat.format("Variant attributes related to {0} encoding are ignored", coding.getEncodingName()));
}
}
}
// FIXME implement checks
// TODO only raw data is extracted
final VariantAttributeAnalyzer analyzer = new VariantAttributeAnalyzer();
boolean newRaw = false;
final AtomicBoolean rawFoud = new AtomicBoolean(false);
if (rawAttribute == null) {
IType t_refd = this;
while (t_refd.getRawAttribute() == null && t_refd instanceof Referenced_Type) {
final IReferenceChain referenceChain = ReferenceChain.getInstance(IReferenceChain.CIRCULARREFERENCE, true);
t_refd = ((Referenced_Type) t_refd).getTypeRefd(timestamp, referenceChain);
referenceChain.release();
}
rawAttribute = new RawAST(t_refd.getRawAttribute(), getDefaultRawFieldLength());
newRaw = true;
}
analyzer.parse(rawAttribute, singleWithAttribute.getAttributeSpecification(), getLengthMultiplier(), rawFoud);
if (!rawFoud.get() && newRaw) {
rawAttribute = null;
}
}
if (global) {
// send global variant attributes to field/element types
switch(getTypetype()) {
case TYPE_TTCN3_CHOICE:
case TYPE_TTCN3_SEQUENCE:
case TYPE_TTCN3_SET:
for (int i = 0; i < ((TTCN3_Set_Seq_Choice_BaseType) this).getNofComponents(); i++) {
((TTCN3_Set_Seq_Choice_BaseType) this).getComponentByIndex(i).getType().checkThisVariant(timestamp, singleWithAttribute, global);
}
break;
case TYPE_ASN1_CHOICE:
case TYPE_ASN1_SEQUENCE:
case TYPE_ASN1_SET:
for (int i = 0; i < ((ASN1_Set_Seq_Choice_BaseType) this).getNofComponents(timestamp); i++) {
((ASN1_Set_Seq_Choice_BaseType) this).getComponentByIndex(i).getType().checkThisVariant(timestamp, singleWithAttribute, global);
}
break;
case TYPE_ANYTYPE:
for (int i = 0; i < ((Anytype_Type) this).getNofComponents(); i++) {
((Anytype_Type) this).getComponentByIndex(i).getType().checkThisVariant(timestamp, singleWithAttribute, global);
}
break;
case TYPE_OPENTYPE:
for (int i = 0; i < ((Open_Type) this).getNofComponents(); i++) {
((Open_Type) this).getComponentByIndex(i).getType().checkThisVariant(timestamp, singleWithAttribute, global);
}
break;
case TYPE_ARRAY:
((Array_Type) this).getElementType().checkThisVariant(timestamp, singleWithAttribute, global);
break;
case TYPE_SEQUENCE_OF:
((SequenceOf_Type) this).getOfType().checkThisVariant(timestamp, singleWithAttribute, global);
break;
case TYPE_SET_OF:
((SetOf_Type) this).getOfType().checkThisVariant(timestamp, singleWithAttribute, global);
break;
default:
break;
}
}
}
Also used :
VariantAttributeAnalyzer(org.eclipse.titan.designer.parsers.variantattributeparser.VariantAttributeAnalyzer)
Open_Type(org.eclipse.titan.designer.AST.ASN1.types.Open_Type)
RawAST(org.eclipse.titan.designer.AST.TTCN3.attributes.RawAST)
ASN1_Set_Seq_Choice_BaseType(org.eclipse.titan.designer.AST.ASN1.types.ASN1_Set_Seq_Choice_BaseType)
ArrayList(java.util.ArrayList)
Anytype_Type(org.eclipse.titan.designer.AST.TTCN3.types.Anytype_Type)
AtomicBoolean(java.util.concurrent.atomic.AtomicBoolean)
TTCN3_Set_Seq_Choice_BaseType(org.eclipse.titan.designer.AST.TTCN3.types.TTCN3_Set_Seq_Choice_BaseType)
Referenced_Type(org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type)
Example 12 with Referenced_Type
use of org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type in project titan.EclipsePlug-ins by eclipse.
the class SelectWithNumbersSorted method process.
@Override
protected void process(final IVisitableNode node, final Problems problems) {
if (!(node instanceof SelectCase_Statement)) {
return;
}
final SelectCase_Statement s = (SelectCase_Statement) node;
final Value v = s.getExpression();
if (v == null || v.getIsErroneous(timestamp)) {
return;
}
final SelectCases scs = s.getSelectCases();
if (scs == null || scs.getSelectCaseArray() == null) {
return;
}
// if there is an else branch, no smell will be reported
for (final SelectCase sc : scs.getSelectCaseArray()) {
if (sc.hasElse()) {
return;
}
}
IType itype = v.getExpressionGovernor(timestamp, Expected_Value_type.EXPECTED_TEMPLATE);
// TODO Kristof: az ellenorzes folosleges.
if (itype instanceof Referenced_Type) {
itype = itype.getTypeRefdLast(timestamp);
}
if (itype == null || !(itype instanceof Integer_Type)) {
return;
}
// count number of cases in select, get used integer type case-items
final CaseVisitorInteger caseVisitorInteger = new CaseVisitorInteger();
scs.accept(caseVisitorInteger);
if (caseVisitorInteger.containsUnfoldable()) {
return;
}
final List<Long> usedIntegerItems = caseVisitorInteger.getItemsUsed();
if (!checkIfIntegerCasesSorted(usedIntegerItems)) {
problems.report(s.getLocation(), ERR_MSG);
}
}
Also used :
SelectCase_Statement(org.eclipse.titan.designer.AST.TTCN3.statements.SelectCase_Statement)
Integer_Type(org.eclipse.titan.designer.AST.TTCN3.types.Integer_Type)
Integer_Value(org.eclipse.titan.designer.AST.TTCN3.values.Integer_Value)
Value(org.eclipse.titan.designer.AST.Value)
IValue(org.eclipse.titan.designer.AST.IValue)
SelectCases(org.eclipse.titan.designer.AST.TTCN3.statements.SelectCases)
SelectCase(org.eclipse.titan.designer.AST.TTCN3.statements.SelectCase)
Referenced_Type(org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type)
IType(org.eclipse.titan.designer.AST.IType)
Example 13 with Referenced_Type
use of org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type in project titan.EclipsePlug-ins by eclipse.
the class TTCN3_Set_Seq_Choice_BaseType method checkSetSeqRawCodingAttributes.
/**
* Check the raw coding attributes of TTCN3 record and set types.
*
* @param timestamp the timestamp of the actual semantic check cycle.
*/
protected void checkSetSeqRawCodingAttributes(final CompilationTimeStamp timestamp) {
// check raw attributes
if (rawAttribute != null) {
if (rawAttribute.taglist != null) {
for (int c = 0; c < rawAttribute.taglist.size(); c++) {
final rawAST_single_tag singleTag = rawAttribute.taglist.get(c);
final Identifier fieldname = singleTag.fieldName;
if (!hasComponentWithName(fieldname.getName())) {
fieldname.getLocation().reportSemanticError(MessageFormat.format("Invalid field name `{0}'' in RAW parameter TAG for type `{1}''", fieldname.getDisplayName(), getTypename()));
continue;
}
if (singleTag.keyList != null) {
for (int a = 0; a < singleTag.keyList.size(); a++) {
final Reference reference = new Reference(null);
reference.addSubReference(new FieldSubReference(fieldname));
for (int b = 0; b < singleTag.keyList.get(a).keyField.names.size(); b++) {
reference.addSubReference(new FieldSubReference(singleTag.keyList.get(a).keyField.names.get(b)));
}
final IType t = getFieldType(timestamp, reference, 0, Expected_Value_type.EXPECTED_DYNAMIC_VALUE, false);
if (t != null) {
final Value v = singleTag.keyList.get(a).v_value;
if (v != null) {
v.setMyScope(getMyScope());
v.setMyGovernor(t);
final IValue tempValue = t.checkThisValueRef(timestamp, v);
t.checkThisValue(timestamp, tempValue, null, new ValueCheckingOptions(Expected_Value_type.EXPECTED_CONSTANT, false, false, false, false, false));
}
}
}
}
}
}
if (rawAttribute.ext_bit_groups != null) {
for (int a = 0; a < rawAttribute.ext_bit_groups.size(); a++) {
final rawAST_ext_bit_group tempExtBitGroup = rawAttribute.ext_bit_groups.get(a);
final Identifier fromIdentifier = tempExtBitGroup.from;
final Identifier toIdentifier = tempExtBitGroup.to;
boolean foundError = false;
if (!hasComponentWithName(fromIdentifier.getName())) {
fromIdentifier.getLocation().reportSemanticError(MessageFormat.format("Invalid field name `{0}'' in RAW parameter EXTENSION_BIT_GROUP for type `{1}''", fromIdentifier.getDisplayName(), getTypename()));
foundError = true;
}
if (!hasComponentWithName(toIdentifier.getName())) {
toIdentifier.getLocation().reportSemanticError(MessageFormat.format("Invalid field name `{0}'' in RAW parameter EXTENSION_BIT_GROUP for type `{1}''", toIdentifier.getDisplayName(), getTypename()));
foundError = true;
}
if (!foundError) {
boolean foundStart = false;
for (int i = 0; i < getNofComponents(); i++) {
final Identifier tempId = getComponentByIndex(i).getIdentifier();
if (tempId.equals(fromIdentifier)) {
foundStart = true;
} else if (tempId.equals(toIdentifier)) {
if (!foundStart) {
getLocation().reportSemanticError(MessageFormat.format("Invalid field order in RAW parameter EXTENSION_BIT_GROUP for type `{0}'': `{1}'', `{2}''", getTypename(), fromIdentifier.getDisplayName(), toIdentifier.getDisplayName()));
}
break;
}
}
}
}
}
if (rawAttribute.paddall != RawAST.XDEFDEFAULT) {
for (int i = 0; i < getNofComponents(); i++) {
final CompField cField = getComponentByIndex(i);
final Type fieldType = cField.getType();
RawAST fieldRawAttribute = fieldType.rawAttribute;
if (fieldRawAttribute == null) {
IType t = fieldType;
if (t instanceof Referenced_Type) {
final IReferenceChain referenceChain = ReferenceChain.getInstance(IReferenceChain.CIRCULARREFERENCE, true);
t = ((Referenced_Type) t).getTypeRefd(timestamp, referenceChain);
referenceChain.release();
}
while (t.getRawAttribute() == null && t instanceof Referenced_Type) {
final IReferenceChain referenceChain = ReferenceChain.getInstance(IReferenceChain.CIRCULARREFERENCE, true);
t = ((Referenced_Type) t).getTypeRefd(timestamp, referenceChain);
referenceChain.release();
}
fieldRawAttribute = new RawAST(t.getRawAttribute(), fieldType.getDefaultRawFieldLength());
fieldType.setRawAttributes(fieldRawAttribute);
}
if (fieldRawAttribute.padding == 0) {
fieldRawAttribute.padding = rawAttribute.padding;
}
if (fieldRawAttribute.prepadding == 0) {
fieldRawAttribute.prepadding = rawAttribute.prepadding;
}
if (fieldRawAttribute.padding_pattern_length == 0 && rawAttribute.padding_pattern_length > 0) {
fieldRawAttribute.padding_pattern = rawAttribute.padding_pattern;
fieldRawAttribute.padding_pattern_length = rawAttribute.padding_pattern_length;
}
}
}
if (rawAttribute.fieldorder != RawAST.XDEFDEFAULT) {
for (int i = 0; i < getNofComponents(); i++) {
final CompField cField = getComponentByIndex(i);
final Type fieldType = cField.getType();
RawAST fieldRawAttribute = fieldType.rawAttribute;
if (fieldRawAttribute == null) {
fieldRawAttribute = new RawAST(fieldType.getDefaultRawFieldLength());
fieldType.setRawAttributes(fieldRawAttribute);
}
if (fieldRawAttribute.fieldorder == RawAST.XDEFDEFAULT) {
fieldRawAttribute.fieldorder = rawAttribute.fieldorder;
}
}
}
}
if (rawAttribute != null && rawAttribute.presence != null) {
if (rawAttribute.presence.keyList != null) {
for (int a = 0; a < rawAttribute.presence.keyList.size(); a++) {
final rawAST_tag_field_value tempTagFieldValue = rawAttribute.presence.keyList.get(a);
final Reference reference = new Reference(null);
reference.addSubReference(new FieldSubReference(tempTagFieldValue.keyField.names.get(0)));
for (int b = 1; b < tempTagFieldValue.keyField.names.size(); b++) {
reference.addSubReference(new FieldSubReference(tempTagFieldValue.keyField.names.get(b)));
}
final IType t = getFieldType(timestamp, reference, 0, Expected_Value_type.EXPECTED_DYNAMIC_VALUE, false);
if (t != null) {
final Value v = tempTagFieldValue.v_value;
if (v != null) {
v.setMyScope(getMyScope());
v.setMyGovernor(t);
final IValue tempValue = t.checkThisValueRef(timestamp, v);
t.checkThisValue(timestamp, tempValue, null, new ValueCheckingOptions(Expected_Value_type.EXPECTED_CONSTANT, false, false, false, false, false));
}
}
}
}
}
// number of bits used to store all previous fields
int usedBits = 0;
for (int i = 0; i < getNofComponents(); i++) {
final CompField cField = getComponentByIndex(i);
final Type fieldType = cField.getType();
fieldType.forceRaw(timestamp);
final RawAST rawPar = fieldType.rawAttribute;
if (rawPar != null) {
final Identifier fieldId = cField.getIdentifier();
final IType fieldTypeLast = fieldType.getTypeRefdLast(timestamp);
if (rawPar.prepadding != 0) {
usedBits = (usedBits + rawPar.prepadding - 1) / rawPar.prepadding * rawPar.prepadding;
}
if (rawPar.intX && fieldTypeLast.getTypetype() == Type_type.TYPE_INTEGER) {
if (usedBits % 8 != 0 && (rawAttribute == null || rawAttribute.fieldorder != RawAST.XDEFMSB)) {
getLocation().reportSemanticError(MessageFormat.format("Using RAW parameter IntX in a record/set with FIELDORDER set to 'lsb' is only supported if the IntX field starts at the beginning of a new octet. There are {0} unused bits in the last octet before field {1}.", 8 - (usedBits % 8), fieldId.getDisplayName()));
}
} else if (rawPar.fieldlength > 0) {
usedBits += rawPar.fieldlength;
}
if (rawPar.padding != 0) {
usedBits = (usedBits + rawPar.padding - 1) / rawPar.padding * rawPar.padding;
}
if (rawPar.lengthto != null) {
for (int j = 0; j < rawPar.lengthto.size(); j++) {
final Identifier id = rawPar.lengthto.get(j);
if (!hasComponentWithName(id.getName())) {
id.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter LENGTHTO for field {0}: {1}", fieldId.getDisplayName(), id.getDisplayName()));
}
}
}
if (rawPar.lengthto != null) {
switch(fieldTypeLast.getTypetype()) {
case TYPE_INTEGER:
case TYPE_INTEGER_A:
break;
case TYPE_TTCN3_CHOICE:
for (int fi = 0; fi < ((TTCN3_Choice_Type) fieldTypeLast).getNofComponents(); fi++) {
final Type_type tt = ((TTCN3_Choice_Type) fieldTypeLast).getComponentByIndex(fi).getType().getTypetype();
if (tt != Type_type.TYPE_INTEGER && tt != Type_type.TYPE_INTEGER_A) {
getLocation().reportSemanticError("The union type LENGTHTO field must contain only integer fields");
}
}
break;
case TYPE_ASN1_CHOICE:
for (int fi = 0; fi < ((ASN1_Choice_Type) fieldTypeLast).getNofComponents(timestamp); fi++) {
final Type_type tt = ((ASN1_Choice_Type) fieldTypeLast).getComponentByIndex(fi).getType().getTypetype();
if (tt != Type_type.TYPE_INTEGER && tt != Type_type.TYPE_INTEGER_A) {
getLocation().reportSemanticError("The union type LENGTHTO field must contain only integer fields");
}
}
break;
case TYPE_ANYTYPE:
case TYPE_OPENTYPE:
case TYPE_TTCN3_SEQUENCE:
case TYPE_ASN1_SEQUENCE:
case TYPE_TTCN3_SET:
case TYPE_ASN1_SET:
if (rawPar.lengthindex != null) {
// will be checked in the next step
break;
}
default:
getLocation().reportSemanticError(MessageFormat.format("The LENGTHTO field must be an integer or union type instead of `{0}''", fieldTypeLast.getTypename()));
break;
}
}
if (rawPar.lengthto != null && rawPar.lengthindex != null) {
final Identifier id = rawPar.lengthindex.names.get(0);
switch(fieldTypeLast.getTypetype()) {
case TYPE_TTCN3_CHOICE:
case TYPE_TTCN3_SEQUENCE:
case TYPE_TTCN3_SET:
if (!((TTCN3_Set_Seq_Choice_BaseType) fieldTypeLast).hasComponentWithName(id.getName())) {
id.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter LENGTHINDEX for field {0}: {1}", fieldId.getDisplayName(), id.getDisplayName()));
}
break;
case TYPE_ASN1_CHOICE:
case TYPE_ASN1_SEQUENCE:
case TYPE_ASN1_SET:
if (!((ASN1_Set_Seq_Choice_BaseType) fieldTypeLast).hasComponentWithName(id)) {
id.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter LENGTHINDEX for field {0}: {1}", fieldId.getDisplayName(), id.getDisplayName()));
}
break;
default:
fieldId.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldmember type in RAW parameter LENGTHINDEX for field {0}.", fieldId.getDisplayName()));
break;
}
}
if (rawPar.pointerto != null) {
final Identifier id = rawPar.pointerto;
boolean errorFound = false;
int pointed = 0;
if (!hasComponentWithName(id.getName())) {
id.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter POINTERTO for field {0}: {1}", fieldId.getDisplayName(), id.getDisplayName()));
errorFound = true;
}
if (!errorFound) {
pointed = getComponentIndexByName(id);
if (pointed <= i) {
id.getLocation().reportSemanticError(MessageFormat.format("Pointer must precede the pointed field. Incorrect field name `{0}'' in RAW parameter POINTERTO for field `{1}''", id.getDisplayName(), fieldId.getDisplayName()));
errorFound = true;
}
}
if (!errorFound && rawPar.ptrbase != null) {
final Identifier idf2 = rawPar.ptrbase;
if (!hasComponentWithName(idf2.getName())) {
idf2.getLocation().reportSemanticError(MessageFormat.format("Invalid field name `{0}'' in RAW parameter PTROFFSET for field `{1}''", idf2.getDisplayName(), fieldId.getDisplayName()));
errorFound = true;
}
if (!errorFound && getComponentIndexByName(idf2) > pointed) {
idf2.getLocation().reportSemanticError(MessageFormat.format("Pointer base must precede the pointed field. Incorrect field name `{0}'' in RAW parameter PTROFFSET for field `{1}''", idf2.getDisplayName(), fieldId.getDisplayName()));
}
}
}
if (rawPar.presence != null && rawPar.presence.keyList != null) {
for (int a = 0; a < rawPar.presence.keyList.size(); a++) {
final rawAST_tag_field_value tempTagFieldValue = rawPar.presence.keyList.get(a);
final Reference reference = new Reference(null);
reference.addSubReference(new FieldSubReference(tempTagFieldValue.keyField.names.get(0)));
for (int b = 1; b < tempTagFieldValue.keyField.names.size(); b++) {
reference.addSubReference(new FieldSubReference(tempTagFieldValue.keyField.names.get(b)));
}
final IType t = getFieldType(timestamp, reference, 0, Expected_Value_type.EXPECTED_DYNAMIC_VALUE, false);
if (t != null) {
final Value v = tempTagFieldValue.v_value;
if (v != null) {
v.setMyScope(getMyScope());
v.setMyGovernor(t);
final IValue tempValue = t.checkThisValueRef(timestamp, v);
t.checkThisValue(timestamp, tempValue, null, new ValueCheckingOptions(Expected_Value_type.EXPECTED_CONSTANT, false, false, false, false, false));
}
}
}
}
if (rawPar.crosstaglist != null) {
for (int c = 0; c < rawPar.crosstaglist.size(); c++) {
final rawAST_single_tag singleTag = rawPar.crosstaglist.get(c);
final Identifier idf = singleTag.fieldName;
switch(fieldTypeLast.getTypetype()) {
case TYPE_TTCN3_CHOICE:
case TYPE_TTCN3_SEQUENCE:
case TYPE_TTCN3_SET:
if (!((TTCN3_Set_Seq_Choice_BaseType) fieldTypeLast).hasComponentWithName(idf.getName())) {
idf.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter CROSSTAG for field {0}: {1}", fieldId.getDisplayName(), idf.getDisplayName()));
}
break;
case TYPE_ASN1_CHOICE:
case TYPE_ASN1_SEQUENCE:
case TYPE_ASN1_SET:
if (!((ASN1_Set_Seq_Choice_BaseType) fieldTypeLast).hasComponentWithName(idf)) {
idf.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter CROSSTAG for field {0}: {1}", fieldId.getDisplayName(), idf.getDisplayName()));
}
break;
default:
fieldId.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldmember type in RAW parameter CROSSTAG for field {0}.", fieldId.getDisplayName()));
break;
}
if (singleTag.keyList != null) {
for (int a = 0; a < singleTag.keyList.size(); a++) {
IType t2 = this;
boolean errorFound = false;
boolean allow_omit = false;
final rawAST_tag_field_value tagField = singleTag.keyList.get(a);
for (int b = 0; b < tagField.keyField.names.size() && !errorFound; b++) {
final Identifier idf2 = tagField.keyField.names.get(b);
CompField cf2 = null;
switch(t2.getTypetype()) {
case TYPE_TTCN3_CHOICE:
case TYPE_TTCN3_SEQUENCE:
case TYPE_TTCN3_SET:
if (!((TTCN3_Set_Seq_Choice_BaseType) t2).hasComponentWithName(idf2.getName())) {
idf2.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter CROSSTAG for field {0}: {1}", fieldId.getDisplayName(), idf2.getDisplayName()));
errorFound = true;
} else {
cf2 = ((TTCN3_Set_Seq_Choice_BaseType) t2).getComponentByName(idf2.getName());
}
break;
case TYPE_ASN1_CHOICE:
case TYPE_ASN1_SEQUENCE:
case TYPE_ASN1_SET:
if (!((ASN1_Set_Seq_Choice_BaseType) t2).hasComponentWithName(idf2)) {
idf2.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldname in RAW parameter CROSSTAG for field {0}: {1}", fieldId.getDisplayName(), idf2.getDisplayName()));
errorFound = true;
} else {
cf2 = ((ASN1_Set_Seq_Choice_BaseType) t2).getComponentByName(idf2);
}
break;
default:
fieldId.getLocation().reportSemanticError(MessageFormat.format("Invalid fieldmember type in RAW parameter CROSSTAG for field {0}.", fieldId.getDisplayName()));
errorFound = true;
break;
}
if (b == 0) {
final int fieldIndex = getComponentIndexByName(idf2);
if (fieldIndex == i) {
idf2.getLocation().reportSemanticError(MessageFormat.format("RAW parameter CROSSTAG for field `{0}'' cannot refer to the field itself", idf2.getDisplayName()));
errorFound = true;
} else if (fieldIndex > i) {
if (cField.isOptional()) {
// TODO || fieldType.getRawLength() < 0
idf2.getLocation().reportSemanticError(MessageFormat.format("Field `{0}'' that CROSSTAG refers to must precede field `{1}'' or field `{1}'' must be mandatory with fixed length", idf2.getDisplayName(), fieldId.getDisplayName()));
errorFound = true;
}
}
}
if (!errorFound) {
t2 = cf2.getType().getTypeRefdLast(timestamp);
if (b == tagField.keyField.names.size() - 1 && cf2.isOptional()) {
allow_omit = true;
}
}
}
if (!errorFound) {
final Value v = singleTag.keyList.get(a).v_value;
if (v != null) {
v.setMyScope(getMyScope());
v.setMyGovernor(t2);
final IValue tempValue = t2.checkThisValueRef(timestamp, v);
t2.checkThisValue(timestamp, tempValue, null, new ValueCheckingOptions(Expected_Value_type.EXPECTED_CONSTANT, false, allow_omit, false, false, false));
}
}
}
}
}
}
}
}
}
Also used :
RawAST(org.eclipse.titan.designer.AST.TTCN3.attributes.RawAST)
FieldSubReference(org.eclipse.titan.designer.AST.FieldSubReference)
ISubReference(org.eclipse.titan.designer.AST.ISubReference)
FieldSubReference(org.eclipse.titan.designer.AST.FieldSubReference)
ArraySubReference(org.eclipse.titan.designer.AST.ArraySubReference)
Reference(org.eclipse.titan.designer.AST.Reference)
ParameterisedSubReference(org.eclipse.titan.designer.AST.ParameterisedSubReference)
RawAST.rawAST_ext_bit_group(org.eclipse.titan.designer.AST.TTCN3.attributes.RawAST.rawAST_ext_bit_group)
IType(org.eclipse.titan.designer.AST.IType)
ASN1_Choice_Type(org.eclipse.titan.designer.AST.ASN1.types.ASN1_Choice_Type)
ASN1_Set_Seq_Choice_BaseType(org.eclipse.titan.designer.AST.ASN1.types.ASN1_Set_Seq_Choice_BaseType)
Type(org.eclipse.titan.designer.AST.Type)
ASN1_Choice_Type(org.eclipse.titan.designer.AST.ASN1.types.ASN1_Choice_Type)
IType(org.eclipse.titan.designer.AST.IType)
Identifier(org.eclipse.titan.designer.AST.Identifier)
IValue(org.eclipse.titan.designer.AST.IValue)
IReferenceChain(org.eclipse.titan.designer.AST.IReferenceChain)
Value(org.eclipse.titan.designer.AST.Value)
IValue(org.eclipse.titan.designer.AST.IValue)
RawAST.rawAST_tag_field_value(org.eclipse.titan.designer.AST.TTCN3.attributes.RawAST.rawAST_tag_field_value)
RawAST.rawAST_single_tag(org.eclipse.titan.designer.AST.TTCN3.attributes.RawAST.rawAST_single_tag)
Example 14 with Referenced_Type
use of org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type in project titan.EclipsePlug-ins by eclipse.
the class ComponentTypeBody method collectExtensionAttributes.
/**
* Collects the extends extension attributes, from the with attributes assigned to the component type.
*
* @param timestamp the timestamp of the actual semantic check cycle
*/
private void collectExtensionAttributes(final CompilationTimeStamp timestamp) {
if (withAttributesPath == null) {
return;
}
final List<SingleWithAttribute> realAttributes = withAttributesPath.getRealAttributes(timestamp);
SingleWithAttribute attribute;
List<AttributeSpecification> specifications = null;
for (int i = 0; i < realAttributes.size(); i++) {
attribute = realAttributes.get(i);
if (Attribute_Type.Extension_Attribute.equals(attribute.getAttributeType())) {
final Qualifiers qualifiers = attribute.getQualifiers();
if (qualifiers == null || qualifiers.getNofQualifiers() == 0) {
if (specifications == null) {
specifications = new ArrayList<AttributeSpecification>();
}
specifications.add(attribute.getAttributeSpecification());
}
}
}
if (specifications == null) {
return;
}
final List<ExtensionAttribute> attributes = new ArrayList<ExtensionAttribute>();
AttributeSpecification specification;
for (int i = 0; i < specifications.size(); i++) {
specification = specifications.get(i);
final ExtensionAttributeAnalyzer analyzer = new ExtensionAttributeAnalyzer();
analyzer.parse(specification);
final List<ExtensionAttribute> temp = analyzer.getAttributes();
if (temp != null) {
attributes.addAll(temp);
}
}
if (attributes.isEmpty()) {
return;
}
attrExtendsReferences = new ComponentTypeReferenceList();
for (int i = 0, size = attributes.size(); i < size; i++) {
final ExtensionAttribute tempAttribute = attributes.get(i);
if (ExtensionAttribute_type.EXTENDS.equals(tempAttribute.getAttributeType())) {
final ExtensionsAttribute extensionsAttribute = (ExtensionsAttribute) tempAttribute;
for (int j = 0, size2 = extensionsAttribute.getNofTypes(); j < size2; j++) {
final IType tempType = extensionsAttribute.getType(j);
if (Type_type.TYPE_REFERENCED.equals(tempType.getTypetype())) {
attrExtendsReferences.addReference(((Referenced_Type) tempType).getReference());
}
}
}
}
attrExtendsReferences.setFullNameParent(new BridgingNamedNode(this, ".<extends attribute>"));
attrExtendsReferences.setMyScope(parentScope);
}
Also used :
ArrayList(java.util.ArrayList)
SingleWithAttribute(org.eclipse.titan.designer.AST.TTCN3.attributes.SingleWithAttribute)
BridgingNamedNode(org.eclipse.titan.designer.AST.BridgingNamedNode)
ExtensionAttribute(org.eclipse.titan.designer.AST.TTCN3.attributes.ExtensionAttribute)
IType(org.eclipse.titan.designer.AST.IType)
AttributeSpecification(org.eclipse.titan.designer.AST.TTCN3.attributes.AttributeSpecification)
ExtensionsAttribute(org.eclipse.titan.designer.AST.TTCN3.attributes.ExtensionsAttribute)
ExtensionAttributeAnalyzer(org.eclipse.titan.designer.parsers.extensionattributeparser.ExtensionAttributeAnalyzer)
Qualifiers(org.eclipse.titan.designer.AST.TTCN3.attributes.Qualifiers)
Aggregations
Referenced_Type (org.eclipse.titan.designer.AST.TTCN3.types.Referenced_Type)11
IReferenceChain (org.eclipse.titan.designer.AST.IReferenceChain)7
IType (org.eclipse.titan.designer.AST.IType)7
Identifier (org.eclipse.titan.designer.AST.Identifier)5
IValue (org.eclipse.titan.designer.AST.IValue)4
Reference (org.eclipse.titan.designer.AST.Reference)4
Undefined_LowerIdentifier_Value (org.eclipse.titan.designer.AST.TTCN3.values.Undefined_LowerIdentifier_Value)4
ArrayList (java.util.ArrayList)3
ObjectClass_refd (org.eclipse.titan.designer.AST.ASN1.Object.ObjectClass_refd)3
Type (org.eclipse.titan.designer.AST.Type)3
Value (org.eclipse.titan.designer.AST.Value)3
ASN1_Choice_Type (org.eclipse.titan.designer.AST.ASN1.types.ASN1_Choice_Type)2
ASN1_Set_Seq_Choice_BaseType (org.eclipse.titan.designer.AST.ASN1.types.ASN1_Set_Seq_Choice_BaseType)2
Open_Type (org.eclipse.titan.designer.AST.ASN1.types.Open_Type)2
Undefined_Block_Value (org.eclipse.titan.designer.AST.ASN1.values.Undefined_Block_Value)2
ArraySubReference (org.eclipse.titan.designer.AST.ArraySubReference)2
FieldSubReference (org.eclipse.titan.designer.AST.FieldSubReference)2
ISubReference (org.eclipse.titan.designer.AST.ISubReference)2
ParameterisedSubReference (org.eclipse.titan.designer.AST.ParameterisedSubReference)2
Scope (org.eclipse.titan.designer.AST.Scope)2
