/** * Called after top level methods (and other items) have been moved from entries to * ruleInstanceList. Task now is to scan ruleInstanceList looking for MethodEntry objects with * dependent (related, extracted) methods. Move these from the entries list to the correct place * in the ruleInstanceList list. * * @param entries Remaining (unarranged) items, including all dependent (extracted) methods. * @param ruleInstance Rule containing parents (callers) of potentially related methods */ public static void rearrangeRelatedItems( List<ClassContentsEntry> entries, RuleInstance ruleInstance, RelatedMethodsSettings rms) { List<RangeEntry> parentEntries = new ArrayList<RangeEntry>(ruleInstance.getMatches()); for (RangeEntry o : parentEntries) { if (o instanceof RelatableEntry) { MethodEntry me = (MethodEntry) o; if (me.isGetter()) { if (me.myKeptWithProperty) { if (me.getMatchedRule() != null && me.getMatchedRule().getMatches() != null) { // prevent the getter from appearing under a rule it matches; it will be placed under // the property me.getMatchedRule().getMatches().remove(me); } } for (MethodEntry theSetter : me.myCorrespondingGetterSetters) { final RuleInstance theRule = theSetter.getMatchedRule(); LOG.debug( "rearrangeRelatedItems: for getter method " + me + ", corresponding setter is " + theSetter); if (theRule != null && theRule.getMatches() != null) { LOG.debug( "remove entry " + theSetter.myEnd + " from matched rule" + theRule + "; matches = " + ((java.util.List) theRule.getMatches()) == null ? "null" : ""); theRule.getMatches().remove(theSetter); } } } if (me.myCalledMethods.size() > 0) { List<MethodEntry> parents = new LinkedList<MethodEntry>(); parents.add(me); moveRelatedItems( entries, parents, rms, ((PsiMethod) me.myEnd).getName(), ((PsiMethod) me.myEnd).getName() + "()", 1); if (LOG.isDebugEnabled()) { // dump sorted children recursively me.dumpChild(0); } me.assignComments(rms); } } } }
/** * Set preceding and/or trailing comments on the appropriate methods, based on the comment type. * * @param rms * @param allMethodNames contains a list of methods invoked to reach this point. Top level is * empty string. * @param level current nesting level; top level is 1. */ private void assignComments( RelatedMethodsSettings rms, List<MethodEntry> allCallingMethods, String allMethodNames, int level) { final String currentMethodName = ((PsiMethod) myEnd).getName(); String[] callingNames = new String[allCallingMethods.size()]; for (int i = 0; i < allCallingMethods.size(); i++) { MethodEntry me = allCallingMethods.get(i); callingNames[i] = ((PsiMethod) me.myEnd).getName(); } MethodEntry topLevel = this; while (topLevel.myCalledByMethods.size() > 0) { topLevel = (topLevel.myCalledByMethods.get(0)); } switch (rms.getCommentType()) { case RelatedMethodsSettings.COMMENT_TYPE_TOP_LEVEL: customizedPrecedingComment = expandComment( rms.getPrecedingComment(), currentMethodName, allMethodNames, currentMethodName, level); MethodEntry last = this; while (last.sortedMethods.size() > 0) { last = (last.sortedMethods.get(last.sortedMethods.size() - 1)); } last.customizedTrailingComment = expandComment( rms.getTrailingComment(), currentMethodName, allMethodNames, currentMethodName, level); break; case RelatedMethodsSettings.COMMENT_TYPE_EACH_METHOD: customizedPrecedingComment = expandComment( rms.getPrecedingComment(), currentMethodName, allMethodNames, ((PsiMethod) topLevel.myEnd).getName(), level); customizedTrailingComment = expandComment( rms.getTrailingComment(), currentMethodName, allMethodNames, ((PsiMethod) topLevel.myEnd).getName(), level); // recursively assign comments. for (MethodEntry methodEntry : sortedMethods) { String newAllMethodNames = appendMN(allMethodNames, callingNames, allCallingMethods, this, rms); methodEntry.assignComments(rms, sortedMethods, newAllMethodNames, level + 1); } break; case RelatedMethodsSettings.COMMENT_TYPE_NEW_FAMILY: { /** * Specialized routine to assign comments to "families" of methods. Insert a preceding * comment before every sibling except: when it is the first, and when the prior sibling * had no children and this sibling has no children. */ MethodEntry firstEntry = null; MethodEntry previousEntry = null; for (MethodEntry methodEntry : allCallingMethods) { if (firstEntry == null) { firstEntry = methodEntry; } else if (methodEntry.sortedMethods.size() != 0 || previousEntry.sortedMethods.size() != 0) { methodEntry.customizedPrecedingComment = expandComment( rms.getPrecedingComment(), currentMethodName, allMethodNames, ((PsiMethod) topLevel.myEnd).getName(), level); } previousEntry = methodEntry; if (methodEntry.sortedMethods.size() != 0) { String newAllMethodNames = appendMN(allMethodNames, callingNames, allCallingMethods, methodEntry, rms); methodEntry.assignComments( rms, methodEntry.sortedMethods, newAllMethodNames, level + 1); } } } break; case RelatedMethodsSettings.COMMENT_TYPE_EACH_LEVEL: { MethodEntry beginLevel = allCallingMethods.get(0); MethodEntry endLevel = allCallingMethods.get(allCallingMethods.size() - 1); beginLevel.customizedPrecedingComment = expandComment( rms.getPrecedingComment(), currentMethodName, allMethodNames, ((PsiMethod) topLevel.myEnd).getName(), level); // recursively assign comments for each level. for (MethodEntry methodEntry : allCallingMethods) { if (methodEntry.sortedMethods.size() > 0) { String newAllMethodNames = appendMN(allMethodNames, callingNames, allCallingMethods, methodEntry, rms); methodEntry.assignComments( rms, methodEntry.sortedMethods, newAllMethodNames, level + 1); } } while (endLevel.sortedMethods.size() > 0) { endLevel = endLevel.sortedMethods.get(endLevel.sortedMethods.size() - 1); } if (endLevel.customizedTrailingComment.length() > 0) { endLevel.customizedTrailingComment += "\n"; } endLevel.customizedTrailingComment += expandComment( rms.getTrailingComment(), currentMethodName, allMethodNames, ((PsiMethod) topLevel.myEnd).getName(), level); } break; } }
private void assignComments(RelatedMethodsSettings rms) { List<MethodEntry> callingMethod = new ArrayList<MethodEntry>(); callingMethod.add(this); assignComments(rms, callingMethod, "", 1); }