use of com.github.antlrjavaparser.api.expr.ArrayInitializerExpr in project spring-roo by spring-projects.
the class JavaParserAnnotationMetadataBuilder method convert.
private AnnotationAttributeValue<?> convert(JavaSymbolName annotationName, final Expression expression, final CompilationUnitServices compilationUnitServices) {
if (annotationName == null) {
annotationName = new JavaSymbolName("__ARRAY_ELEMENT__");
}
if (expression instanceof AnnotationExpr) {
final AnnotationExpr annotationExpr = (AnnotationExpr) expression;
final AnnotationMetadata value = getInstance(annotationExpr, compilationUnitServices).build();
return new NestedAnnotationAttributeValue(annotationName, value);
}
if (expression instanceof BooleanLiteralExpr) {
final boolean value = ((BooleanLiteralExpr) expression).getValue();
return new BooleanAttributeValue(annotationName, value);
}
if (expression instanceof CharLiteralExpr) {
final String value = ((CharLiteralExpr) expression).getValue();
Validate.isTrue(value.length() == 1, "Expected a char expression, but instead received '%s' for attribute '%s'", value, annotationName);
final char c = value.charAt(0);
return new CharAttributeValue(annotationName, c);
}
if (expression instanceof LongLiteralExpr) {
String value = ((LongLiteralExpr) expression).getValue();
Validate.isTrue(value.toUpperCase().endsWith("L"), "Expected long literal expression '%s' to end in 'l' or 'L'", value);
value = value.substring(0, value.length() - 1);
final long l = new Long(value);
return new LongAttributeValue(annotationName, l);
}
if (expression instanceof IntegerLiteralExpr) {
final String value = ((IntegerLiteralExpr) expression).getValue();
final int i = new Integer(value);
return new IntegerAttributeValue(annotationName, i);
}
if (expression instanceof DoubleLiteralExpr) {
String value = ((DoubleLiteralExpr) expression).getValue();
boolean floatingPrecisionOnly = false;
if (value.toUpperCase().endsWith("F")) {
value = value.substring(0, value.length() - 1);
floatingPrecisionOnly = true;
}
if (value.toUpperCase().endsWith("D")) {
value = value.substring(0, value.length() - 1);
}
final double d = new Double(value);
return new DoubleAttributeValue(annotationName, d, floatingPrecisionOnly);
}
if (expression instanceof BinaryExpr) {
String result = "";
BinaryExpr current = (BinaryExpr) expression;
while (current != null) {
String right = "";
if (current.getRight() instanceof StringLiteralExpr) {
right = ((StringLiteralExpr) current.getRight()).getValue();
} else if (current.getRight() instanceof NameExpr) {
right = ((NameExpr) current.getRight()).getName();
}
result = right + result;
if (current.getLeft() instanceof StringLiteralExpr) {
final String left = ((StringLiteralExpr) current.getLeft()).getValue();
result = left + result;
}
if (current.getLeft() instanceof BinaryExpr) {
current = (BinaryExpr) current.getLeft();
} else {
current = null;
}
}
return new StringAttributeValue(annotationName, result);
}
if (expression instanceof StringLiteralExpr) {
final String value = ((StringLiteralExpr) expression).getValue();
return new StringAttributeValue(annotationName, value);
}
if (expression instanceof FieldAccessExpr) {
final FieldAccessExpr field = (FieldAccessExpr) expression;
final String fieldName = field.getField();
// Determine the type
final Expression scope = field.getScope();
NameExpr nameToFind = null;
if (scope instanceof FieldAccessExpr) {
final FieldAccessExpr fScope = (FieldAccessExpr) scope;
nameToFind = JavaParserUtils.getNameExpr(fScope.toString());
} else if (scope instanceof NameExpr) {
nameToFind = (NameExpr) scope;
} else {
throw new UnsupportedOperationException("A FieldAccessExpr for '" + field.getScope() + "' should return a NameExpr or FieldAccessExpr (was " + field.getScope().getClass().getName() + ")");
}
final JavaType fieldType = JavaParserUtils.getJavaType(compilationUnitServices, nameToFind, null);
final EnumDetails enumDetails = new EnumDetails(fieldType, new JavaSymbolName(fieldName));
return new EnumAttributeValue(annotationName, enumDetails);
}
if (expression instanceof NameExpr) {
final NameExpr field = (NameExpr) expression;
final String name = field.getName();
// As we have no way of finding out the real type
final JavaType fieldType = new JavaType("unknown.Object");
final EnumDetails enumDetails = new EnumDetails(fieldType, new JavaSymbolName(name));
return new EnumAttributeValue(annotationName, enumDetails);
}
if (expression instanceof ClassExpr) {
final ClassExpr clazz = (ClassExpr) expression;
final Type nameToFind = clazz.getType();
final JavaType javaType = JavaParserUtils.getJavaType(compilationUnitServices, nameToFind, null);
return new ClassAttributeValue(annotationName, javaType);
}
if (expression instanceof ArrayInitializerExpr) {
final ArrayInitializerExpr castExp = (ArrayInitializerExpr) expression;
final List<AnnotationAttributeValue<?>> arrayElements = new ArrayList<AnnotationAttributeValue<?>>();
for (final Expression e : castExp.getValues()) {
arrayElements.add(convert(null, e, compilationUnitServices));
}
return new ArrayAttributeValue<AnnotationAttributeValue<?>>(annotationName, arrayElements);
}
if (expression instanceof UnaryExpr) {
final UnaryExpr castExp = (UnaryExpr) expression;
if (castExp.getOperator() == Operator.negative) {
String value = castExp.toString();
value = value.toUpperCase().endsWith("L") ? value.substring(0, value.length() - 1) : value;
final long l = new Long(value);
return new LongAttributeValue(annotationName, l);
} else {
throw new UnsupportedOperationException("Only negative operator in UnaryExpr is supported");
}
}
throw new UnsupportedOperationException("Unable to parse annotation attribute '" + annotationName + "' due to unsupported annotation expression '" + expression.getClass().getName() + "'");
}
use of com.github.antlrjavaparser.api.expr.ArrayInitializerExpr in project spring-roo by spring-projects.
the class JavaParserAnnotationMetadataBuilder method convert.
@SuppressWarnings("unchecked")
private static MemberValuePair convert(final AnnotationAttributeValue<?> value, CompilationUnitServices compilationUnitServices) {
if (value instanceof NestedAnnotationAttributeValue) {
final NestedAnnotationAttributeValue castValue = (NestedAnnotationAttributeValue) value;
AnnotationExpr annotationExpr;
final AnnotationMetadata nestedAnnotation = castValue.getValue();
if (castValue.getValue().getAttributeNames().size() == 0) {
annotationExpr = new MarkerAnnotationExpr(JavaParserUtils.getNameExpr(nestedAnnotation.getAnnotationType().getSimpleTypeName()));
} else if (castValue.getValue().getAttributeNames().size() == 1 && (castValue.getValue().getAttributeNames().get(0) == null || "value".equals(castValue.getValue().getAttributeNames().get(0).getSymbolName()))) {
annotationExpr = new SingleMemberAnnotationExpr(JavaParserUtils.getNameExpr(nestedAnnotation.getAnnotationType().getSimpleTypeName()), convert(nestedAnnotation.getAttribute(nestedAnnotation.getAttributeNames().get(0)), compilationUnitServices).getValue());
} else {
final List<MemberValuePair> memberValuePairs = new ArrayList<MemberValuePair>();
for (final JavaSymbolName attributeName : nestedAnnotation.getAttributeNames()) {
memberValuePairs.add(convert(nestedAnnotation.getAttribute(attributeName), compilationUnitServices));
}
annotationExpr = new NormalAnnotationExpr(JavaParserUtils.getNameExpr(nestedAnnotation.getAnnotationType().getSimpleTypeName()), memberValuePairs);
}
// Add imports for nested annotation types
JavaParserUtils.importTypeIfRequired(compilationUnitServices.getEnclosingTypeName(), compilationUnitServices.getImports(), nestedAnnotation.getAnnotationType());
// Rely on the nested instance to know its member value pairs
return new MemberValuePair(value.getName().getSymbolName(), annotationExpr);
}
if (value instanceof BooleanAttributeValue) {
final boolean castValue = ((BooleanAttributeValue) value).getValue();
final BooleanLiteralExpr convertedValue = new BooleanLiteralExpr(castValue);
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof CharAttributeValue) {
final char castValue = ((CharAttributeValue) value).getValue();
final CharLiteralExpr convertedValue = new CharLiteralExpr(new String(new char[] { castValue }));
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof LongAttributeValue) {
final Long castValue = ((LongAttributeValue) value).getValue();
final LongLiteralExpr convertedValue = new LongLiteralExpr(castValue.toString() + "L");
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof IntegerAttributeValue) {
final Integer castValue = ((IntegerAttributeValue) value).getValue();
final IntegerLiteralExpr convertedValue = new IntegerLiteralExpr(castValue.toString());
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof DoubleAttributeValue) {
final DoubleAttributeValue doubleAttributeValue = (DoubleAttributeValue) value;
final Double castValue = doubleAttributeValue.getValue();
DoubleLiteralExpr convertedValue;
if (doubleAttributeValue.isFloatingPrecisionOnly()) {
convertedValue = new DoubleLiteralExpr(castValue.toString() + "F");
} else {
convertedValue = new DoubleLiteralExpr(castValue.toString() + "D");
}
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof StringAttributeValue) {
final String castValue = ((StringAttributeValue) value).getValue();
final StringLiteralExpr convertedValue = new StringLiteralExpr(castValue.toString());
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof EnumAttributeValue) {
final EnumDetails castValue = ((EnumAttributeValue) value).getValue();
// This isn't as elegant as it could be (ie loss of type
// parameters), but it will do for now
final FieldAccessExpr convertedValue = new FieldAccessExpr(JavaParserUtils.getNameExpr(castValue.getType().getFullyQualifiedTypeName()), castValue.getField().getSymbolName());
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof ClassAttributeValue) {
final JavaType castValue = ((ClassAttributeValue) value).getValue();
// This doesn't preserve type parameters
final NameExpr nameExpr = JavaParserUtils.importTypeIfRequired(compilationUnitServices.getEnclosingTypeName(), compilationUnitServices.getImports(), castValue);
final ClassExpr convertedValue = new ClassExpr(JavaParserUtils.getReferenceType(nameExpr));
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof ArrayAttributeValue) {
final ArrayAttributeValue<AnnotationAttributeValue<?>> castValue = (ArrayAttributeValue<AnnotationAttributeValue<?>>) value;
final List<Expression> arrayElements = new ArrayList<Expression>();
for (final AnnotationAttributeValue<?> v : castValue.getValue()) {
final MemberValuePair converted = convert(v, compilationUnitServices);
if (converted != null) {
arrayElements.add(converted.getValue());
}
}
return new MemberValuePair(value.getName().getSymbolName(), new ArrayInitializerExpr(arrayElements));
}
throw new UnsupportedOperationException("Unsupported attribute value '" + value.getName() + "' of type '" + value.getClass().getName() + "'");
}
use of com.github.antlrjavaparser.api.expr.ArrayInitializerExpr in project spring-roo by spring-projects.
the class JavaParserUtils method importExpressionIfRequired.
/**
* Recognises {@link Expression}s of type {@link FieldAccessExpr} and
* {@link ClassExpr} and automatically imports them if required, returning
* the correct {@link Expression} that should subsequently be used.
* <p>
* Even if an {@link Expression} is not resolved by this method into a type
* and/or imported, the method guarantees to always return an
* {@link Expression} that the caller can subsequently use in place of the
* passed {@link Expression}. In practical terms, the {@link Expression}
* passed to this method will be returned unless the type was already
* imported, just imported, or represented a java.lang type.
*
* @param targetType the compilation unit target type (required)
* @param imports the existing imports (required)
* @param value that expression, which need not necessarily be resolvable to
* a type (required)
* @return the expression to now use, as appropriately resolved (never
* returns null)
*/
public static Expression importExpressionIfRequired(final JavaType targetType, final List<ImportDeclaration> imports, final Expression value) {
Validate.notNull(targetType, "Target type required");
Validate.notNull(imports, "Imports required");
Validate.notNull(value, "Expression value required");
if (value instanceof FieldAccessExpr) {
final Expression scope = ((FieldAccessExpr) value).getScope();
final String field = ((FieldAccessExpr) value).getField();
if (scope instanceof QualifiedNameExpr) {
final String packageName = ((QualifiedNameExpr) scope).getQualifier().getName();
final String simpleName = ((QualifiedNameExpr) scope).getName();
final String fullyQualifiedName = packageName + "." + simpleName;
final JavaType javaType = new JavaType(fullyQualifiedName);
final NameExpr nameToUse = importTypeIfRequired(targetType, imports, javaType);
if (!(nameToUse instanceof QualifiedNameExpr)) {
return new FieldAccessExpr(nameToUse, field);
}
}
} else if (value instanceof ClassExpr) {
final Type type = ((ClassExpr) value).getType();
if (type instanceof ClassOrInterfaceType) {
final JavaType javaType = new JavaType(((ClassOrInterfaceType) type).getName());
final NameExpr nameToUse = importTypeIfRequired(targetType, imports, javaType);
if (!(nameToUse instanceof QualifiedNameExpr)) {
return new ClassExpr(new ClassOrInterfaceType(javaType.getSimpleTypeName()));
}
} else if (type instanceof ReferenceType && ((ReferenceType) type).getType() instanceof ClassOrInterfaceType) {
final ClassOrInterfaceType cit = (ClassOrInterfaceType) ((ReferenceType) type).getType();
final JavaType javaType = new JavaType(cit.getName());
final NameExpr nameToUse = importTypeIfRequired(targetType, imports, javaType);
if (!(nameToUse instanceof QualifiedNameExpr)) {
return new ClassExpr(new ClassOrInterfaceType(javaType.getSimpleTypeName()));
}
}
} else if (value instanceof ArrayInitializerExpr) {
List<Expression> values = ((ArrayInitializerExpr) value).getValues();
for (Expression expressionValue : values) {
// Check annotation expression
if (expressionValue instanceof NormalAnnotationExpr) {
Validate.isInstanceOf(NormalAnnotationExpr.class, expressionValue, "Attempting to add >1 annotation member-value pair requires an existing normal annotation expression");
final List<MemberValuePair> annotationPairs = ((NormalAnnotationExpr) expressionValue).getPairs();
for (final MemberValuePair pair : annotationPairs) {
final Expression toUse = JavaParserUtils.importExpressionIfRequired(targetType, imports, pair.getValue());
pair.setValue(toUse);
}
}
}
}
// Make no changes
return value;
}
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