use of org.mvel2.optimizers.dynamic.DynamicGetAccessor in project drools by kiegroup.
the class ConditionAnalyzer method analyzeNodeAccessor.
private Expression analyzeNodeAccessor(Accessor accessor, ASTNode node) {
AccessorNode accessorNode;
if (accessor instanceof DynamicGetAccessor) {
accessorNode = (AccessorNode) ((DynamicGetAccessor) accessor).getSafeAccessor();
} else if (accessor instanceof AccessorNode) {
accessorNode = (AccessorNode) accessor;
} else if (accessor instanceof CompiledExpression) {
return analyzeNode(((CompiledExpression) accessor).getFirstNode());
} else if (accessor instanceof ListCreator) {
return analyzeListCreation(((ListCreator) accessor));
} else if (accessor instanceof ArrayCreator) {
return analyzeArrayCreation(((ArrayCreator) accessor));
} else {
throw new RuntimeException("Unknown accessor type: " + accessor);
}
if (accessorNode instanceof VariableAccessor) {
if (isStaticAccessor(accessorNode)) {
while (accessorNode instanceof VariableAccessor) {
accessorNode = accessorNode.getNextNode();
}
} else {
return analyzeNodeAccessor(accessorNode, node);
}
}
while (accessorNode instanceof StaticReferenceAccessor) {
StaticReferenceAccessor staticReferenceAccessor = ((StaticReferenceAccessor) accessorNode);
Object literal = staticReferenceAccessor.getLiteral();
accessorNode = accessorNode.getNextNode();
if (accessorNode == null) {
return new FixedExpression(literal.getClass(), literal);
}
}
return analyzeExpressionNode(accessorNode, node, null);
}
use of org.mvel2.optimizers.dynamic.DynamicGetAccessor in project drools by kiegroup.
the class ConditionAnalyzer method analyzeNode.
private Expression analyzeNode(ASTNode node) {
node = analyzeRegEx(analyzeSubstatement(node));
if (node instanceof LiteralNode) {
LiteralNode literalNode = (LiteralNode) node;
return new FixedExpression(literalNode.getEgressType(), literalNode.getLiteralValue());
}
if (node instanceof BinaryOperation) {
BinaryOperation op = (BinaryOperation) node;
return new AritmeticExpression(analyzeNode(op.getLeft()), AritmeticOperator.fromMvelOpCode(op.getOperation()), analyzeNode(op.getRight()));
}
if (node instanceof TypeCast) {
ExecutableStatement statement = ((TypeCast) node).getStatement();
if (statement instanceof ExecutableAccessor) {
ExecutableAccessor accessor = (ExecutableAccessor) statement;
return new CastExpression(node.getEgressType(), analyzeNode(accessor.getNode()));
} else {
ExecutableLiteral literal = (ExecutableLiteral) statement;
return new CastExpression(node.getEgressType(), new FixedExpression(literal.getLiteral()));
}
}
if (node instanceof Union) {
ASTNode main = ((Union) node).getMain();
Accessor accessor = node.getAccessor();
EvaluatedExpression expression = new EvaluatedExpression();
expression.firstExpression = analyzeNode(main);
if (accessor instanceof DynamicGetAccessor) {
AccessorNode accessorNode = (AccessorNode) ((DynamicGetAccessor) accessor).getSafeAccessor();
expression.addInvocation(analyzeAccessorInvocation(accessorNode, node, null, null));
} else if (accessor instanceof AccessorNode) {
AccessorNode accessorNode = (AccessorNode) accessor;
while (accessorNode != null) {
expression.addInvocation(analyzeAccessorInvocation(accessorNode, node, null, null));
accessorNode = accessorNode.getNextNode();
}
} else {
throw new RuntimeException("Unexpected accessor: " + accessor);
}
return expression;
}
if (node instanceof Sign) {
ExecutableStatement statement = getFieldValue(Sign.class, "stmt", (Sign) node);
if (statement instanceof ExecutableAccessor) {
ExecutableAccessor accessor = (ExecutableAccessor) statement;
return new AritmeticExpression(new FixedExpression(0), AritmeticOperator.SUB, analyzeNode(accessor.getNode()));
} else {
ExecutableLiteral literal = (ExecutableLiteral) statement;
return new AritmeticExpression(new FixedExpression(0), AritmeticOperator.SUB, new FixedExpression(literal.getLiteral()));
}
}
Accessor accessor = node.getAccessor();
if (accessor instanceof IndexedVariableAccessor) {
String variableName = node.getName();
int dot = variableName.indexOf('.');
if (dot > 0) {
variableName = variableName.substring(0, dot);
}
Class<?> variableType = getVariableType(variableName);
return new VariableExpression(variableName, analyzeExpressionNode(((AccessorNode) accessor).getNextNode(), node, variableType), variableType != null ? variableType : node.getEgressType());
}
if (accessor == null && node instanceof NewObjectNode) {
accessor = ((NewObjectNode) node).getNewObjectOptimizer();
}
if (accessor instanceof VariableAccessor) {
VariableAccessor variableAccessor = (VariableAccessor) accessor;
AccessorNode accessorNode = variableAccessor.getNextNode();
if (accessorNode == null || !isStaticAccessor(accessorNode)) {
String variableName = (String) (variableAccessor.getProperty());
Class<?> variableType = getVariableType(variableName);
if (variableType != null) {
return new VariableExpression(variableName, analyzeExpressionNode(accessorNode, node, variableType), variableType);
} else {
if (node.getLiteralValue() instanceof ParserContext) {
ParserContext pCtx = (ParserContext) node.getLiteralValue();
// it's not a variable but a method invocation on this
Class<?> thisClass = pCtx.getInputs().get("this");
try {
return new EvaluatedExpression(new MethodInvocation(thisClass.getMethod(variableName)));
} catch (NoSuchMethodException e) {
if (node.getEgressType() == Class.class) {
// there's no method on this with the given name, check if it is a class literal
Class<?> classLiteral = pCtx.getParserConfiguration().getImport(variableName);
if (classLiteral != null) {
return new FixedExpression(Class.class, classLiteral);
}
}
throw new RuntimeException(e);
}
}
}
}
}
if (accessor == null) {
throw new RuntimeException("Null accessor on node: " + node);
}
return analyzeNodeAccessor(accessor, node);
}
Aggregations