/**
* Analyse an expression.
*
* @param availDecls Total set of declarations available.
* @param ast The AST for the expression.
* @return The <code>Set</code> of declarations used by the expression.
* @throws RecognitionException If an error occurs in the parser.
*/
@SuppressWarnings("unchecked")
private MVELAnalysisResult analyze(
final Set<String> identifiers, final BoundIdentifiers availableIdentifiers) {
MVELAnalysisResult result = new MVELAnalysisResult();
result.setIdentifiers(identifiers);
final Set<String> notBound = new HashSet<String>(identifiers);
notBound.remove("this");
Map<String, Class<?>> usedDecls = new HashMap<String, Class<?>>();
Map<String, Class<?>> usedGlobals = new HashMap<String, Class<?>>();
for (Entry<String, Class<?>> entry : availableIdentifiers.getDeclarations().entrySet()) {
if (identifiers.contains(entry.getKey())) {
usedDecls.put(entry.getKey(), entry.getValue());
notBound.remove(entry.getKey());
}
}
for (Entry<String, Class<?>> entry : availableIdentifiers.getGlobals().entrySet()) {
if (identifiers.contains(entry.getKey())) {
usedGlobals.put(entry.getKey(), entry.getValue());
notBound.remove(entry.getKey());
}
}
result.setBoundIdentifiers(
new BoundIdentifiers(usedDecls, usedGlobals, availableIdentifiers.getThisClass()));
result.setNotBoundedIdentifiers(notBound);
return result;
}
/**
* Analyze an expression.
*
* @param expr The expression to analyze.
* @param availDecls Total set of declarations available.
* @return The <code>Set</code> of declarations used by the expression.
* @throws RecognitionException If an error occurs in the parser.
*/
public MVELAnalysisResult analyzeExpression(
final PackageBuildContext context,
final String expr,
final BoundIdentifiers availableIdentifiers,
final Map<String, Class<?>> localTypes) {
MVELAnalysisResult result = null;
if (expr.trim().length() > 0) {
MVEL.COMPILER_OPT_ALLOW_NAKED_METH_CALL = true;
MVELDialect dialect = (MVELDialect) context.getDialect("mvel");
// creating a reusable parser configuration
ParserConfiguration conf = new ParserConfiguration();
conf.setImports(dialect.getImports());
conf.setPackageImports((HashSet) dialect.getPackgeImports());
conf.setClassLoader(context.getPackageBuilder().getRootClassLoader());
// first compilation is for verification only
// @todo proper source file name
final ParserContext parserContext1 = new ParserContext(conf);
if (localTypes != null) {
for (Entry entry : localTypes.entrySet()) {
parserContext1.addInput((String) entry.getKey(), (Class) entry.getValue());
}
}
if (availableIdentifiers.getThisClass() != null) {
parserContext1.addInput("this", availableIdentifiers.getThisClass());
}
parserContext1.setStrictTypeEnforcement(false);
parserContext1.setStrongTyping(false);
parserContext1.setInterceptors(dialect.getInterceptors());
Class returnType = null;
try {
returnType = MVEL.analyze(expr, parserContext1);
} catch (Exception e) {
context
.getErrors()
.add(
new DescrBuildError(
context.getParentDescr(),
null,
null,
"Unable to Analyse Expression " + expr + ":\n" + e.getMessage()));
return null;
}
Set<String> requiredInputs = new HashSet();
requiredInputs.addAll(parserContext1.getInputs().keySet());
HashMap<String, Class<?>> variables =
(HashMap<String, Class<?>>) ((Map) parserContext1.getVariables());
// MVEL includes direct fields of context object in non-strict mode. so we need to strip those
if (availableIdentifiers.getThisClass() != null) {
for (Iterator<String> it = requiredInputs.iterator(); it.hasNext(); ) {
if (PropertyTools.getFieldOrAccessor(availableIdentifiers.getThisClass(), it.next())
!= null) {
it.remove();
}
}
}
// now, set the required input types and compile again
final ParserContext parserContext2 = new ParserContext(conf);
parserContext2.setStrictTypeEnforcement(true);
parserContext2.setStrongTyping(true);
parserContext2.setInterceptors(dialect.getInterceptors());
if (context.isTypesafe()) {
if (localTypes != null) {
for (Entry<String, Class<?>> entry : localTypes.entrySet()) {
parserContext2.addInput(entry.getKey(), entry.getValue());
}
}
for (String str : requiredInputs) {
Class cls = availableIdentifiers.getDeclarations().get(str);
if (cls != null) {
parserContext2.addInput(str, cls);
continue;
}
if (cls == null) {
cls = availableIdentifiers.getGlobals().get(str);
if (cls != null) {
parserContext2.addInput(str, cls);
continue;
}
}
if (cls == null) {
if (str.equals("drools")) {
parserContext2.addInput("drools", KnowledgeHelper.class);
} else if (str.equals("kcontext")) {
parserContext2.addInput("kcontext", RuleContext.class);
}
if (str.equals("rule")) {
parserContext2.addInput("rule", Rule.class);
}
}
}
if (availableIdentifiers.getThisClass() != null) {
parserContext2.addInput("this", availableIdentifiers.getThisClass());
}
try {
returnType = MVEL.analyze(expr, parserContext2);
} catch (Exception e) {
context
.getErrors()
.add(
new DescrBuildError(
context.getParentDescr(),
null,
null,
"Unable to Analyse Expression " + expr + ":\n" + e.getMessage()));
return null;
}
requiredInputs = new HashSet();
requiredInputs.addAll(parserContext2.getInputs().keySet());
requiredInputs.addAll(variables.keySet());
variables = (HashMap<String, Class<?>>) ((Map) parserContext2.getVariables());
}
result = analyze(requiredInputs, availableIdentifiers);
result.setReturnType(returnType);
result.setMvelVariables(variables);
} else {
result = analyze((Set<String>) Collections.EMPTY_SET, availableIdentifiers);
result.setMvelVariables(new HashMap<String, Class<?>>());
}
return result;
}