// VisibleForTesting void buildSimpleRuntimeRebindRules(Rules rules) throws UnableToCompleteException { // Create rebinders for rules specified in the module. Iterator<Rule> iterator = rules.iterator(); while (iterator.hasNext()) { Rule rule = iterator.next(); if (rule instanceof RuleGenerateWith) { continue; } rule.generateRuntimeRebindClasses(logger, module, getGeneratorContext()); } }
private GenPredicGroup addPredicsToExisting(Rule rul, GenPredicGroup previousConds) { List<GenPredicGroup> list = new ArrayList<GenPredicGroup>(); GenPredicGroup gpg = getGroupConditions(rul.getRootCondition().getConditions(), null); list.add(gpg); list.add(previousConds); GenPredicGroup newGroup = new GenPredicGroup(); newGroup.setMyGroups(list); newGroup.setOperator(EOperator.ANY); return newGroup; }
/** * according to .gwt.xml files generates a LinkedMap which has interfaces as keys array of * generators as values keys are sorted according order of <generate-with> elements in .gwt.xml * files * * @param context * @throws UnableToCompleteException */ private void fillUpGeneratorChainMap(TreeLogger logger, GeneratorContext context) throws UnableToCompleteException { GeneratorChain.customGenerators = new LinkedList<AbstractGenerator>(); GeneratorChain.replacers = new LinkedList<AbstractGenerator>(); GeneratorChain.thirdPartyGenerators = new LinkedHashMap<Generator, AbstractGenerator>(); ModuleDef moduleDef = ((CompilerContext) getPrivateField(context, "compilerContext")).getModule(); Rules rules = moduleDef.getRules(); Iterator<Rule> rulesIter = rules.iterator(); while (rulesIter.hasNext()) { Rule rul = rulesIter.next(); Generator gen = null; // =================replace with if (rul instanceof RuleReplaceWith) { String replaceClass = (String) getPrivateField(rul, "replacementTypeName"); gen = new ReplaceByGenerator(replaceClass); // gen = null; // =================generate with } else if (rul instanceof RuleGenerateWith) { Class<? extends Generator> generatorClass = (Class<? extends Generator>) getPrivateField(rul, "generatorClass"); Constructor<?> constructor; try { constructor = generatorClass.getDeclaredConstructor(); } catch (Exception e) { logger.log( Type.ERROR, "Unable to obtain default constructor of generator " + generatorClass); throw new UnableToCompleteException(); } constructor.setAccessible(true); try { gen = (Generator) constructor.newInstance(); } catch (Exception e) { logger.log(Type.ERROR, "Unable to create instance of generator " + generatorClass); throw new UnableToCompleteException(); } } if (gen != null) { if (gen instanceof AbstractGenerator) { GenPredicGroup newGroup = null; AbstractGenerator myGen = (AbstractGenerator) gen; if (GeneratorChain.customGenerators.contains(gen) || GeneratorChain.replacers.contains(gen)) { newGroup = addPredicsToExisting(rul, myGen.getConditions()); myGen.setConditions(newGroup); } else { newGroup = getGroupConditions(rul.getRootCondition().getConditions(), null); myGen.setConditions(newGroup); if (gen instanceof ReplaceByGenerator) { GeneratorChain.replacers.addFirst(myGen); } else { GeneratorChain.customGenerators.addFirst(myGen); } } } else { if (GeneratorChain.thirdPartyGenerators.containsKey(gen)) { AbstractGenerator myGen = GeneratorChain.thirdPartyGenerators.get(gen); GenPredicGroup newGroup = addPredicsToExisting(rul, myGen.getConditions()); myGen.setConditions(newGroup); GeneratorChain.thirdPartyGenerators.put(gen, myGen); } else { AbstractGenerator myGen = new AbstractGenerator() { @Override public String doGenerate( TreeLogger logger, GeneratorContext context, String typeName) throws UnableToCompleteException { return null; } }; myGen.setConditions(getGroupConditions(rul.getRootCondition().getConditions(), null)); GeneratorChain.thirdPartyGenerators.put(gen, myGen); } } } } }