@SuppressWarnings("unchecked") private ConstraintConnectiveDescr parseExpression( final RuleBuildContext context, final PatternDescr patternDescr, final String expression) { DrlExprParser parser = new DrlExprParser(context.getConfiguration().getLanguageLevel()); ConstraintConnectiveDescr result = parser.parse(expression); if (result == null || parser.hasErrors()) { for (DroolsParserException error : parser.getErrors()) { context.addError( new DescrBuildError( context.getParentDescr(), patternDescr, null, "Unable to parser pattern expression:\n" + error.getMessage())); } return null; } return result; }
@SuppressWarnings("unchecked") private void processBinding( RuleBuildContext context, BaseDescr descr, Declaration[] params, List<Integer> declrIndexes, List<Integer> varIndexes, List<Object> arguments, List<Declaration> requiredDeclarations, InternalReadAccessor arrayReader, Pattern pattern, BindingDescr bind, ConstraintConnectiveDescr result) { Declaration declr = context.getDeclarationResolver().getDeclaration(context.getRule(), bind.getVariable()); if (declr != null) { // check right maps to a slot, otherwise we can't reverse this and should error int pos = getPos(bind.getExpression(), params); if (pos >= 0) { // slot exist, reverse and continue String slot = bind.getExpression(); String var = bind.getVariable(); bind.setVariable(slot); bind.setExpression(var); } else { // else error, we cannot find the slot to unify against } } // left does not already exist, is it a slot? int pos = getPos(bind.getVariable(), params); if (pos >= 0) { // it's an input on a slot, is the input using bindings? declr = context.getDeclarationResolver().getDeclaration(context.getRule(), bind.getExpression()); if (declr != null) { arguments.set(pos, declr); declrIndexes.add(pos); requiredDeclarations.add(declr); } else { // it must be a literal/expression // it's an expression and thus an input DrlExprParser parser = new DrlExprParser(context.getConfiguration().getLanguageLevel()); ConstraintConnectiveDescr bresult = parser.parse(bind.getExpression()); if (parser.hasErrors()) { for (DroolsParserException error : parser.getErrors()) { context.addError( new DescrBuildError( context.getParentDescr(), descr, null, "Unable to parser pattern expression:\n" + error.getMessage())); } return; } MVELDumper.MVELDumperContext mvelCtx = new MVELDumper.MVELDumperContext(); String expr = context.getCompilerFactory().getExpressionProcessor().dump(bresult, mvelCtx); try { Object o = MVEL.eval(expr); arguments.set(pos, o); // for now we just work with literals } catch (Exception e) { context.addError( new DescrBuildError( context.getParentDescr(), descr, null, "Unable to compile expression:\n" + expr)); } } } else { // this is creating a new output binding // we know it doesn't exist, as we already checked for left == var declr = pattern.addDeclaration(bind.getVariable()); pos = getPos(bind.getExpression(), params); if (pos < 0) { // error this must be a binding on a slot context.addError( new DescrBuildError( context.getParentDescr(), descr, null, "named argument does not exist:\n" + bind.getExpression())); return; } // this bit is different, notice its the ArrayElementReader that we wire up to, not the // declaration. ArrayElementReader reader = new ArrayElementReader(arrayReader, pos, params[pos].getExtractor().getExtractToClass()); // Should the reader be registered like the others? Probably yes... // PatternBuilder.registerReadAccessor( ); declr.setReadAccessor(reader); varIndexes.add(pos); arguments.set(pos, Variable.v); } }