use of org.codehaus.groovy.ast.expr.TernaryExpression in project grails-core by grails.
the class ControllerActionTransformer method initializeStringParameter.
protected void initializeStringParameter(final ClassNode classNode, final BlockStatement wrapper, final Parameter param, final String requestParameterName) {
final ClassNode paramTypeClassNode = param.getType();
final String methodParamName = param.getName();
Expression getParamsExpression = buildGetPropertyExpression(new VariableExpression("this"), "params", classNode);
final Expression paramsContainsKeyMethodArguments = new ArgumentListExpression(new ConstantExpression(requestParameterName));
final BooleanExpression containsKeyExpression = new BooleanExpression(applyDefaultMethodTarget(new MethodCallExpression(getParamsExpression, "containsKey", paramsContainsKeyMethodArguments), Map.class));
final Statement initializeParameterStatement = new ExpressionStatement(new DeclarationExpression(new VariableExpression(methodParamName, paramTypeClassNode), Token.newSymbol(Types.EQUALS, 0, 0), new TernaryExpression(containsKeyExpression, buildGetMapExpression(getParamsExpression, requestParameterName), new ConstantExpression(null))));
wrapper.addStatement(initializeParameterStatement);
}
use of org.codehaus.groovy.ast.expr.TernaryExpression in project groovy-core by groovy.
the class BinaryExpressionTransformer method transformBinaryExpression.
Expression transformBinaryExpression(final BinaryExpression bin) {
if (bin instanceof DeclarationExpression) {
Expression optimized = transformDeclarationExpression(bin);
if (optimized != null) {
return optimized;
}
}
Object[] list = bin.getNodeMetaData(BINARY_EXP_TARGET);
Token operation = bin.getOperation();
int operationType = operation.getType();
Expression rightExpression = bin.getRightExpression();
Expression leftExpression = bin.getLeftExpression();
if (bin instanceof DeclarationExpression && leftExpression instanceof VariableExpression) {
ClassNode declarationType = ((VariableExpression) leftExpression).getOriginType();
if (rightExpression instanceof ConstantExpression) {
ClassNode unwrapper = ClassHelper.getUnwrapper(declarationType);
ClassNode wrapper = ClassHelper.getWrapper(declarationType);
if (!rightExpression.getType().equals(declarationType) && wrapper.isDerivedFrom(ClassHelper.Number_TYPE) && WideningCategories.isDoubleCategory(unwrapper)) {
ConstantExpression constant = (ConstantExpression) rightExpression;
if (constant.getValue() != null) {
return optimizeConstantInitialization(bin, operation, constant, leftExpression, declarationType);
}
}
}
}
if (operationType == Types.EQUAL && leftExpression instanceof PropertyExpression) {
MethodNode directMCT = leftExpression.getNodeMetaData(StaticTypesMarker.DIRECT_METHOD_CALL_TARGET);
if (directMCT != null) {
return transformPropertyAssignmentToSetterCall((PropertyExpression) leftExpression, rightExpression, directMCT);
}
}
if (operationType == Types.COMPARE_EQUAL || operationType == Types.COMPARE_NOT_EQUAL) {
// let's check if one of the operands is the null constant
CompareToNullExpression compareToNullExpression = null;
if (isNullConstant(leftExpression)) {
compareToNullExpression = new CompareToNullExpression(staticCompilationTransformer.transform(rightExpression), operationType == Types.COMPARE_EQUAL);
} else if (isNullConstant(rightExpression)) {
compareToNullExpression = new CompareToNullExpression(staticCompilationTransformer.transform(leftExpression), operationType == Types.COMPARE_EQUAL);
}
if (compareToNullExpression != null) {
compareToNullExpression.setSourcePosition(bin);
return compareToNullExpression;
}
} else if (operationType == Types.KEYWORD_IN) {
return convertInOperatorToTernary(bin, rightExpression, leftExpression);
}
if (list != null) {
if (operationType == Types.COMPARE_TO) {
StaticTypesTypeChooser typeChooser = staticCompilationTransformer.getTypeChooser();
ClassNode classNode = staticCompilationTransformer.getClassNode();
ClassNode leftType = typeChooser.resolveType(leftExpression, classNode);
if (leftType.implementsInterface(ClassHelper.COMPARABLE_TYPE)) {
ClassNode rightType = typeChooser.resolveType(rightExpression, classNode);
if (rightType.implementsInterface(ClassHelper.COMPARABLE_TYPE)) {
Expression left = staticCompilationTransformer.transform(leftExpression);
Expression right = staticCompilationTransformer.transform(rightExpression);
MethodCallExpression call = new MethodCallExpression(left, "compareTo", new ArgumentListExpression(right));
call.setImplicitThis(false);
call.setMethodTarget(COMPARE_TO_METHOD);
CompareIdentityExpression compareIdentity = new CompareIdentityExpression(left, right);
compareIdentity.putNodeMetaData(StaticTypesMarker.INFERRED_RETURN_TYPE, ClassHelper.boolean_TYPE);
TernaryExpression result = new TernaryExpression(// a==b
new BooleanExpression(compareIdentity), CONSTANT_ZERO, new TernaryExpression(// a==null
new BooleanExpression(new CompareToNullExpression(left, true)), CONSTANT_MINUS_ONE, new TernaryExpression(// b==null
new BooleanExpression(new CompareToNullExpression(right, true)), CONSTANT_ONE, call)));
compareIdentity.putNodeMetaData(StaticTypesMarker.INFERRED_RETURN_TYPE, ClassHelper.int_TYPE);
result.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE);
TernaryExpression expr = (TernaryExpression) result.getFalseExpression();
expr.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE);
expr.getFalseExpression().putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE);
return result;
}
}
}
boolean isAssignment = StaticTypeCheckingSupport.isAssignment(operationType);
MethodCallExpression call;
MethodNode node = (MethodNode) list[0];
String name = (String) list[1];
Expression left = staticCompilationTransformer.transform(leftExpression);
Expression right = staticCompilationTransformer.transform(rightExpression);
BinaryExpression optimized = tryOptimizeCharComparison(left, right, bin);
if (optimized != null) {
optimized.removeNodeMetaData(BINARY_EXP_TARGET);
return transformBinaryExpression(optimized);
}
call = new MethodCallExpression(left, name, new ArgumentListExpression(right));
call.setImplicitThis(false);
call.setMethodTarget(node);
MethodNode adapter = StaticCompilationTransformer.BYTECODE_BINARY_ADAPTERS.get(operationType);
if (adapter != null) {
ClassExpression sba = new ClassExpression(StaticCompilationTransformer.BYTECODE_ADAPTER_CLASS);
// replace with compareEquals
call = new MethodCallExpression(sba, "compareEquals", new ArgumentListExpression(left, right));
call.setMethodTarget(adapter);
call.setImplicitThis(false);
}
if (!isAssignment)
return call;
// the method represents the operation type only, and we must add an assignment
return new BinaryExpression(left, Token.newSymbol("=", operation.getStartLine(), operation.getStartColumn()), call);
}
if (bin.getOperation().getType() == Types.EQUAL && leftExpression instanceof TupleExpression && rightExpression instanceof ListExpression) {
// multiple assignment
ListOfExpressionsExpression cle = new ListOfExpressionsExpression();
boolean isDeclaration = bin instanceof DeclarationExpression;
List<Expression> leftExpressions = ((TupleExpression) leftExpression).getExpressions();
List<Expression> rightExpressions = ((ListExpression) rightExpression).getExpressions();
Iterator<Expression> leftIt = leftExpressions.iterator();
Iterator<Expression> rightIt = rightExpressions.iterator();
if (isDeclaration) {
while (leftIt.hasNext()) {
Expression left = leftIt.next();
if (rightIt.hasNext()) {
Expression right = rightIt.next();
BinaryExpression bexp = new DeclarationExpression(left, bin.getOperation(), right);
bexp.setSourcePosition(right);
cle.addExpression(bexp);
}
}
} else {
// (next, result) = [ result, next+result ]
// -->
// def tmp1 = result
// def tmp2 = next+result
// next = tmp1
// result = tmp2
int size = rightExpressions.size();
List<Expression> tmpAssignments = new ArrayList<Expression>(size);
List<Expression> finalAssignments = new ArrayList<Expression>(size);
for (int i = 0; i < Math.min(size, leftExpressions.size()); i++) {
Expression left = leftIt.next();
Expression right = rightIt.next();
VariableExpression tmpVar = new VariableExpression("$tmpVar$" + tmpVarCounter++);
BinaryExpression bexp = new DeclarationExpression(tmpVar, bin.getOperation(), right);
bexp.setSourcePosition(right);
tmpAssignments.add(bexp);
bexp = new BinaryExpression(left, bin.getOperation(), new VariableExpression(tmpVar));
bexp.setSourcePosition(left);
finalAssignments.add(bexp);
}
for (Expression tmpAssignment : tmpAssignments) {
cle.addExpression(tmpAssignment);
}
for (Expression finalAssignment : finalAssignments) {
cle.addExpression(finalAssignment);
}
}
return staticCompilationTransformer.transform(cle);
}
return staticCompilationTransformer.superTransform(bin);
}
use of org.codehaus.groovy.ast.expr.TernaryExpression in project groovy by apache.
the class BinaryExpressionTransformer method transformBinaryExpression.
Expression transformBinaryExpression(final BinaryExpression bin) {
if (bin instanceof DeclarationExpression) {
Expression optimized = transformDeclarationExpression(bin);
if (optimized != null) {
return optimized;
}
}
Object[] list = bin.getNodeMetaData(BINARY_EXP_TARGET);
Token operation = bin.getOperation();
int operationType = operation.getType();
Expression rightExpression = bin.getRightExpression();
Expression leftExpression = bin.getLeftExpression();
if (bin instanceof DeclarationExpression && leftExpression instanceof VariableExpression) {
ClassNode declarationType = ((VariableExpression) leftExpression).getOriginType();
if (rightExpression instanceof ConstantExpression) {
ClassNode unwrapper = ClassHelper.getUnwrapper(declarationType);
ClassNode wrapper = ClassHelper.getWrapper(declarationType);
if (!rightExpression.getType().equals(declarationType) && wrapper.isDerivedFrom(ClassHelper.Number_TYPE) && WideningCategories.isDoubleCategory(unwrapper)) {
ConstantExpression constant = (ConstantExpression) rightExpression;
if (constant.getValue() != null) {
return optimizeConstantInitialization(bin, operation, constant, leftExpression, declarationType);
}
}
}
}
if (operationType == Types.EQUAL && leftExpression instanceof PropertyExpression) {
MethodNode directMCT = leftExpression.getNodeMetaData(StaticTypesMarker.DIRECT_METHOD_CALL_TARGET);
if (directMCT != null) {
return transformPropertyAssignmentToSetterCall((PropertyExpression) leftExpression, rightExpression, directMCT);
}
}
if (operationType == Types.COMPARE_EQUAL || operationType == Types.COMPARE_NOT_EQUAL) {
// let's check if one of the operands is the null constant
CompareToNullExpression compareToNullExpression = null;
if (isNullConstant(leftExpression)) {
compareToNullExpression = new CompareToNullExpression(staticCompilationTransformer.transform(rightExpression), operationType == Types.COMPARE_EQUAL);
} else if (isNullConstant(rightExpression)) {
compareToNullExpression = new CompareToNullExpression(staticCompilationTransformer.transform(leftExpression), operationType == Types.COMPARE_EQUAL);
}
if (compareToNullExpression != null) {
compareToNullExpression.setSourcePosition(bin);
return compareToNullExpression;
}
} else if (operationType == Types.KEYWORD_IN) {
return convertInOperatorToTernary(bin, rightExpression, leftExpression);
}
if (list != null) {
if (operationType == Types.COMPARE_TO) {
StaticTypesTypeChooser typeChooser = staticCompilationTransformer.getTypeChooser();
ClassNode classNode = staticCompilationTransformer.getClassNode();
ClassNode leftType = typeChooser.resolveType(leftExpression, classNode);
if (leftType.implementsInterface(ClassHelper.COMPARABLE_TYPE)) {
ClassNode rightType = typeChooser.resolveType(rightExpression, classNode);
if (rightType.implementsInterface(ClassHelper.COMPARABLE_TYPE)) {
Expression left = staticCompilationTransformer.transform(leftExpression);
Expression right = staticCompilationTransformer.transform(rightExpression);
MethodCallExpression call = new MethodCallExpression(left, "compareTo", new ArgumentListExpression(right));
call.setImplicitThis(false);
call.setMethodTarget(COMPARE_TO_METHOD);
call.setSourcePosition(bin);
CompareIdentityExpression compareIdentity = new CompareIdentityExpression(left, right);
compareIdentity.putNodeMetaData(StaticTypesMarker.INFERRED_RETURN_TYPE, ClassHelper.boolean_TYPE);
TernaryExpression result = new TernaryExpression(// a==b
new BooleanExpression(compareIdentity), CONSTANT_ZERO, new TernaryExpression(// a==null
new BooleanExpression(new CompareToNullExpression(left, true)), CONSTANT_MINUS_ONE, new TernaryExpression(// b==null
new BooleanExpression(new CompareToNullExpression(right, true)), CONSTANT_ONE, call)));
compareIdentity.putNodeMetaData(StaticTypesMarker.INFERRED_RETURN_TYPE, ClassHelper.int_TYPE);
result.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE);
TernaryExpression expr = (TernaryExpression) result.getFalseExpression();
expr.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE);
expr.getFalseExpression().putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE);
return result;
}
}
}
boolean isAssignment = StaticTypeCheckingSupport.isAssignment(operationType);
MethodCallExpression call;
MethodNode node = (MethodNode) list[0];
String name = (String) list[1];
Expression left = staticCompilationTransformer.transform(leftExpression);
Expression right = staticCompilationTransformer.transform(rightExpression);
BinaryExpression optimized = tryOptimizeCharComparison(left, right, bin);
if (optimized != null) {
optimized.removeNodeMetaData(BINARY_EXP_TARGET);
return transformBinaryExpression(optimized);
}
call = new MethodCallExpression(left, name, new ArgumentListExpression(right));
call.setImplicitThis(false);
call.setMethodTarget(node);
MethodNode adapter = StaticCompilationTransformer.BYTECODE_BINARY_ADAPTERS.get(operationType);
if (adapter != null) {
ClassExpression sba = new ClassExpression(StaticCompilationTransformer.BYTECODE_ADAPTER_CLASS);
// replace with compareEquals
call = new MethodCallExpression(sba, "compareEquals", new ArgumentListExpression(left, right));
call.setMethodTarget(adapter);
call.setImplicitThis(false);
}
call.setSourcePosition(bin);
if (!isAssignment)
return call;
// the method represents the operation type only, and we must add an assignment
return new BinaryExpression(left, Token.newSymbol("=", operation.getStartLine(), operation.getStartColumn()), call);
}
if (bin.getOperation().getType() == Types.EQUAL && leftExpression instanceof TupleExpression && rightExpression instanceof ListExpression) {
// multiple assignment
ListOfExpressionsExpression cle = new ListOfExpressionsExpression();
boolean isDeclaration = bin instanceof DeclarationExpression;
List<Expression> leftExpressions = ((TupleExpression) leftExpression).getExpressions();
List<Expression> rightExpressions = ((ListExpression) rightExpression).getExpressions();
Iterator<Expression> leftIt = leftExpressions.iterator();
Iterator<Expression> rightIt = rightExpressions.iterator();
if (isDeclaration) {
while (leftIt.hasNext()) {
Expression left = leftIt.next();
if (rightIt.hasNext()) {
Expression right = rightIt.next();
BinaryExpression bexp = new DeclarationExpression(left, bin.getOperation(), right);
bexp.setSourcePosition(right);
cle.addExpression(bexp);
}
}
} else {
// (next, result) = [ result, next+result ]
// -->
// def tmp1 = result
// def tmp2 = next+result
// next = tmp1
// result = tmp2
int size = rightExpressions.size();
List<Expression> tmpAssignments = new ArrayList<Expression>(size);
List<Expression> finalAssignments = new ArrayList<Expression>(size);
for (int i = 0; i < Math.min(size, leftExpressions.size()); i++) {
Expression left = leftIt.next();
Expression right = rightIt.next();
VariableExpression tmpVar = new VariableExpression("$tmpVar$" + tmpVarCounter++);
BinaryExpression bexp = new DeclarationExpression(tmpVar, bin.getOperation(), right);
bexp.setSourcePosition(right);
tmpAssignments.add(bexp);
bexp = new BinaryExpression(left, bin.getOperation(), new VariableExpression(tmpVar));
bexp.setSourcePosition(left);
finalAssignments.add(bexp);
}
for (Expression tmpAssignment : tmpAssignments) {
cle.addExpression(tmpAssignment);
}
for (Expression finalAssignment : finalAssignments) {
cle.addExpression(finalAssignment);
}
}
return staticCompilationTransformer.transform(cle);
}
return staticCompilationTransformer.superTransform(bin);
}
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