/**
* Reads an array of strings from the TIFF file.
*
* @param count Number of strings to read
* @param value Offset from which to read
*/
protected String[] readASCIIArray(long count, long value) throws IOException {
_raf.seek(value);
int nstrs = 0;
List list = new LinkedList();
byte[] buf = new byte[(int) count];
_raf.read(buf);
StringBuffer strbuf = new StringBuffer();
for (int i = 0; i < count; i++) {
int b = buf[i];
if (b == 0) {
list.add(strbuf.toString());
strbuf.setLength(0);
} else {
strbuf.append((char) b);
}
}
/* We can't use ArrayList.toArray because that returns an
Object[], not a String[] ... sigh. */
String[] strs = new String[nstrs];
ListIterator iter = list.listIterator();
for (int i = 0; i < nstrs; i++) {
strs[i] = (String) iter.next();
}
return strs;
}
public ListIterator<ICFLibAnyObj> enumerateDetails(MssCFGenContext genContext) {
final String S_ProcName = "CFAsteriskMssCFIterateHostNodeConfFile.enumerateDetails() ";
if (genContext == null) {
throw CFLib.getDefaultExceptionFactory()
.newNullArgumentException(getClass(), S_ProcName, 1, "genContext");
}
ICFLibAnyObj genDef = genContext.getGenDef();
if (genDef == null) {
throw CFLib.getDefaultExceptionFactory()
.newNullArgumentException(getClass(), S_ProcName, 1, "genContext.getGenDef()");
}
List<ICFLibAnyObj> list = new LinkedList<ICFLibAnyObj>();
if (genDef instanceof ICFAsteriskHostNodeObj) {
Iterator<ICFAsteriskConfigurationFileObj> elements =
((ICFAsteriskHostNodeObj) genDef).getOptionalComponentsConfFile().iterator();
while (elements.hasNext()) {
list.add(elements.next());
}
} else {
throw CFLib.getDefaultExceptionFactory()
.newUnsupportedClassException(
getClass(), S_ProcName, "genContext.getGenDef()", genDef, "ICFAsteriskHostNodeObj");
}
return (list.listIterator());
}
public ListIterator<ICFLibAnyObj> enumerateDetails(MssCFGenContext genContext) {
final String S_ProcName = "CFBamMssCFIterateNumberTypeRef.enumerateDetails() ";
if (genContext == null) {
throw CFLib.getDefaultExceptionFactory()
.newNullArgumentException(getClass(), S_ProcName, 1, "genContext");
}
ICFLibAnyObj genDef = genContext.getGenDef();
if (genDef == null) {
throw CFLib.getDefaultExceptionFactory()
.newNullArgumentException(getClass(), S_ProcName, 1, "genContext.getGenDef()");
}
List<ICFLibAnyObj> list = new LinkedList<ICFLibAnyObj>();
if (genDef instanceof ICFBamNumberTypeObj) {
Iterator<ICFBamTableColObj> elements =
((ICFBamNumberTypeObj) genDef).getOptionalChildrenRef().iterator();
while (elements.hasNext()) {
list.add(elements.next());
}
} else {
throw CFLib.getDefaultExceptionFactory()
.newUnsupportedClassException(
getClass(), S_ProcName, "genContext.getGenDef()", genDef, "ICFBamNumberTypeObj");
}
return (list.listIterator());
}
public ListIterator<ICFLibAnyObj> enumerateDetails(MssCFGenContext genContext) {
final String S_ProcName = "CFInternetMssCFIterateTSecGroupIncByGroup.enumerateDetails() ";
if (genContext == null) {
throw CFLib.getDefaultExceptionFactory()
.newNullArgumentException(getClass(), S_ProcName, 1, "genContext");
}
ICFLibAnyObj genDef = genContext.getGenDef();
if (genDef == null) {
throw CFLib.getDefaultExceptionFactory()
.newNullArgumentException(getClass(), S_ProcName, 1, "genContext.getGenDef()");
}
List<ICFLibAnyObj> list = new LinkedList<ICFLibAnyObj>();
if (genDef instanceof ICFInternetTSecGroupObj) {
Iterator<ICFSecurityTSecGroupIncludeObj> elements =
((ICFInternetTSecGroupObj) genDef).getRequiredChildrenIncByGroup().iterator();
while (elements.hasNext()) {
list.add(elements.next());
}
} else {
throw CFLib.getDefaultExceptionFactory()
.newUnsupportedClassException(
getClass(), S_ProcName, "genContext.getGenDef()", genDef, "ICFInternetTSecGroupObj");
}
return (list.listIterator());
}
/** listIterator only returns those elements after the given index */
public void testListIterator2() {
List full = populatedArray(3);
ListIterator i = full.listIterator(1);
int j;
for (j = 0; i.hasNext(); j++) assertEquals(j + 1, ((Integer) i.next()).intValue());
assertEquals(2, j);
}
/** listIterator throws an IndexOutOfBoundsException on a negative index */
public void testListIterator1_IndexOutOfBoundsException() {
try {
List c = emptyArray();
c.listIterator(-1);
shouldThrow();
} catch (IndexOutOfBoundsException e) {
}
}
/** listIterator throws an IndexOutOfBoundsException on a too high index */
public void testListIterator2_IndexOutOfBoundsException() {
try {
List c = emptyArray();
c.add("adasd");
c.add("asdasdas");
c.listIterator(100);
shouldThrow();
} catch (IndexOutOfBoundsException e) {
}
}
/**
* Insert the list of <code>newPasses</code> into <code>passes</code> immediately after the pass
* named <code>id</code>.
*/
public void afterPass(List passes, Pass.ID id, List newPasses) {
for (ListIterator i = passes.listIterator(); i.hasNext(); ) {
Pass p = (Pass) i.next();
if (p.id() == id) {
for (Iterator j = newPasses.iterator(); j.hasNext(); ) {
i.add(j.next());
}
return;
}
}
throw new InternalCompilerError("Pass " + id + " not found.");
}
/** Remove the pass named <code>id</code> from <code>passes</code>. */
public void removePass(List passes, Pass.ID id) {
for (ListIterator i = passes.listIterator(); i.hasNext(); ) {
Pass p = (Pass) i.next();
if (p.id() == id) {
if (p instanceof BarrierPass) {
throw new InternalCompilerError("Cannot remove a barrier pass.");
}
i.remove();
return;
}
}
throw new InternalCompilerError("Pass " + id + " not found.");
}
/**
* Brings the specified entities to the front, keeping their layer. The order of the specified
* entities in the map is unchanged.
*
* @param entities the entities to move
*/
public void bringToFront(List<MapEntity> entities) {
List<MapEntity> sortedEntities = getSortedEntities(entities);
// bring to front each entity from sortedEntities
ListIterator<MapEntity> iterator = sortedEntities.listIterator(0);
while (iterator.hasNext()) {
MapEntity entity = iterator.next();
Layer layer = entity.getLayer();
allEntities[layer.getId()].remove(entity);
allEntities[layer.getId()].addLast(entity);
}
setChanged();
notifyObservers();
}
/**
* Brings the specified entities to the back, keeping their layer. The order of the specified
* entities in the map is unchanged.
*
* @param entities the entities to move
*/
public void bringToBack(List<MapEntity> entities) {
List<MapEntity> sortedEntities = getSortedEntities(entities);
// bring to back each entity from sortedEntities
ListIterator<MapEntity> iterator = sortedEntities.listIterator(sortedEntities.size());
while (iterator.hasPrevious()) {
MapEntity entity = iterator.previous();
Layer layer = entity.getLayer();
allEntities[layer.getId()].remove(entity);
allEntities[layer.getId()].addFirst(entity);
}
setChanged();
notifyObservers();
}
/**
* Insert the list of <code>newPasses</code> into <code>passes</code> immediately before the pass
* named <code>id</code>.
*/
public void beforePass(List passes, Pass.ID id, List newPasses) {
for (ListIterator i = passes.listIterator(); i.hasNext(); ) {
Pass p = (Pass) i.next();
if (p.id() == id) {
// Backup one position.
i.previous();
for (Iterator j = newPasses.iterator(); j.hasNext(); ) {
i.add(j.next());
}
return;
}
}
throw new InternalCompilerError("Pass " + id + " not found.");
}
public static void dumpcode(final MethodEditor m) {
final PrintWriter out = new PrintWriter(System.out, true);
final StackHeightCounter shc = new StackHeightCounter(m);
out.println("Code for method " + m.name() + m.type());
final List instructions = m.code();
final ListIterator iter = instructions.listIterator();
while (iter.hasNext()) {
final Object obj = iter.next();
if (obj instanceof Label) {
shc.handle((Label) obj);
} else if (obj instanceof Instruction) {
shc.handle((Instruction) obj);
}
System.out.println(" " + obj + " (sh: " + shc.height() + ")");
}
}
// ---------------------------------------------------------------------------
private BuildAction addToBuildQueue(String target, boolean primaryTarget, int insertPosition)
throws TablesawException {
// The target was already checked and does not need to be built
if (m_noBuildCache.contains(target)) return (null);
Debug.print("addToBuildQueue(" + target + ", " + primaryTarget + ", " + insertPosition + ")");
Debug.indent();
Rule trule = findTargetRule(target);
CachedFile targetFile = null;
BuildAction[] buildDep = null;
BuildAction targetBA = null;
BuildAction depBA = null;
BuildAction ret = null;
if (trule == null) {
targetFile = m_fileManager.locateFile(target);
// TODO: Add the rule that required this target to the error message
if (targetFile == null)
throw new TablesawException("Unable to locate rule for '" + target + "'");
if (m_sourceFiles != null)
m_sourceFiles.add(
new File(
targetFile.getPath())); // Doing this because locateFile will return a CachedFile
// TODO: check file against cache file stamps and if changed return dummy rule
Debug.print("Cache lookup for " + targetFile.getPath());
// Add file to cache for next run
m_newModificationCache.put(targetFile.getPath(), targetFile.lastModified());
Long cacheModTime = m_modificationCache.get(targetFile.getPath());
if (cacheModTime != null) {
Debug.print("Cache hit " + cacheModTime + ":" + targetFile.lastModified());
if (cacheModTime != targetFile.lastModified()) {
Debug.print("returning obj for " + targetFile);
Debug.popIndent();
targetBA =
new BuildAction(
m_fileManager, new ModifiedFileRule(targetFile.getPath()), m_classAnnotations);
m_buildQueue.add(insertPosition, targetBA);
return (targetBA);
}
} else Debug.print("Cache miss");
// System.out.println("File "+targetFile);
m_noBuildCache.add(target);
Debug.print("Target " + target + " is a file with no rule");
Debug.popIndent();
return (null);
}
if ((m_sourceFiles != null) && (trule instanceof SourceFileSet)) {
m_sourceFiles.addAll(((SourceFileSet) trule).getSourceFiles());
}
long targetTime = 0;
boolean tExists = true;
boolean tDir = false;
boolean tPhony = true;
boolean rebuild = false;
targetBA = new BuildAction(m_fileManager, trule, m_classAnnotations);
int index;
if (m_buildQueueCache.containsKey(targetBA)) {
// Get the build action from the queue
targetBA = m_buildQueueCache.get(targetBA);
Debug.print("target: " + trule + " already in build queue.");
// Target has already been added to build queue
Debug.popIndent();
return (targetBA);
}
File f;
trule.preBuild(m_depCache, m_modificationCache);
// NOTE: need to add in dependencies that are individually declared
// NOTE: getPrerequisites is also where dependency parsing happens to include C headers and
// other java classes
// String[] prereqs = getPrerequisites(trule, true);
List<String> prereqs = new ArrayList<String>();
for (String dn : trule.getDependNames()) {
Debug.print("adding depend name " + dn);
prereqs.add(dn);
}
for (Rule r : trule.getDependRules()) {
Debug.print("adding depend rule " + r);
if (r.getName() == null) {
// Generate name for rule
String genRuleName = NAMED_RULE_PREFIX + (m_ruleNameCounter++);
r.setName(genRuleName);
m_nameRuleMap.put(genRuleName, r);
}
prereqs.add(r.getName());
}
Debug.print("rule dependents " + prereqs.size());
if (prereqs.size() > 0) {
ListIterator<String> it = prereqs.listIterator();
while (it.hasNext()) {
String prereq = it.next();
if (prereq.equals(target))
throw new TablesawException("Target " + target + " depends on itself");
/* //See if the prereq is the name of a rule first
Rule nameRule = m_nameRuleMap.get(prereq);
//Add the new rule targets to the prereqs list
// TODO: some kind of check so we dont add the same named rule again and again.
if (nameRule != null)
{
Iterable<String> ruleTargets = nameRule.getTargets();
boolean hasTargets = false;
for (String t : ruleTargets)
{
hasTargets = true;
it.add(t);
it.previous();
}
if (hasTargets)
continue;
} */
// Add dependencies to build queue first.
// f = m_fileManager.getFile(prereq);
if ((depBA = addToBuildQueue(prereq, false, insertPosition)) != null) {
targetBA.addDependency(depBA);
// trule.addNewerDepend(prereq);
if (depBA.isBinding()) {
Debug.print("Rebuild: " + trule + " because rebuild of " + depBA.getTargetRule());
rebuild = true;
}
}
}
}
if (!rebuild) {
rebuild = trule.needToRun();
Debug.print("Rule needToRun() returned " + rebuild);
}
// TODO: change this to get depends from above and check if no depends
if ((!rebuild)
&& (primaryTarget
&& (!trule
.getTargets()
.iterator()
.hasNext()))) { // If target is the primary target and it has no targets
Debug.print("Adding primary target: " + trule + " to build queue.");
rebuild = true;
}
if (rebuild) { // Add target to build queue
m_buildQueue.add(insertPosition, targetBA);
m_buildQueueCache.put(targetBA, targetBA);
Debug.print("Adding " + targetBA + " to build queue at pos " + insertPosition);
// System.out.println("Adding "+targetBA+" to build queue at pos "+insertPosition);
ret = targetBA;
}
// Add target to cache if it does not need to be built
// This is to speed up incremental builds
if (ret == null) m_noBuildCache.add(target);
Debug.popIndent();
return (ret);
}
public static void main(String[] arg) {
Vector<Boolean> containerTypes = new Vector<Boolean>();
Vector<String> environmentTypes = new Vector<String>();
Vector<String> testNames = new Vector<String>();
Vector<Class> argTests = new Vector<Class>();
Class[] tests = {};
for (int i = 0; i < arg.length; i++) {
if (arg[i].startsWith("-")) {
switch (arg[i].charAt(1)) {
case 'c':
String cType = arg[++i];
if (cType.equalsIgnoreCase(NODE)) containerTypes.add(true);
else if (cType.equalsIgnoreCase(WHOLE)) containerTypes.add(false);
else if (cType.equalsIgnoreCase(ALL)) {
containerTypes.add(true);
containerTypes.add(false);
} else usage();
break;
case 'e':
String eType = arg[++i];
if (eType.equalsIgnoreCase(NONE)
|| eType.equalsIgnoreCase(TXN)
|| eType.equalsIgnoreCase(CDS)) environmentTypes.add(eType);
else if (eType.equalsIgnoreCase(ALL)) {
environmentTypes.add(NONE);
environmentTypes.add(TXN);
environmentTypes.add(CDS);
} else usage();
break;
default:
usage();
}
} else testNames.add(arg[i]);
}
if (containerTypes.size() == 0) {
containerTypes.add(true);
containerTypes.add(false);
}
if (environmentTypes.size() == 0) {
environmentTypes.add(NONE);
environmentTypes.add(TXN);
environmentTypes.add(CDS);
}
// Get the tests to run
if (testNames.size() != 0) {
for (int i = 0; i < testNames.size(); i++) {
Class testClass = null;
try {
testClass = Class.forName("dbxmltest." + testNames.get(i));
} catch (ClassNotFoundException e) {
System.out.println("Skipping test " + testClass + ". Test not found.");
}
if (testClass != null) argTests.add(testClass);
}
if (argTests.size() != 0) tests = argTests.toArray(tests);
else tests = allTests;
} else tests = allTests;
// Run the tests
int failureCount = 0;
boolean success = true;
File errorFile = new File(getEnvironmentPath() + "/errorLog.txt");
try {
if (errorFile.exists()) errorFile.delete();
errorFile.createNewFile();
System.setErr(new PrintStream(new FileOutputStream(errorFile)));
} catch (IOException e) {
}
for (int j = 0; j < environmentTypes.size(); j++) {
System.out.println("Testing env type " + environmentTypes.get(j));
for (int i = 0; i < containerTypes.size(); i++) {
System.out.println("\tContainer type " + (containerTypes.get(i) ? "node" : "whole"));
NODE_CONTAINER = containerTypes.get(i);
ENV_TYPE = environmentTypes.get(j);
Result res = org.junit.runner.JUnitCore.runClasses(tests);
if (!res.wasSuccessful()) {
System.err.println(
"Number of failures for environment type "
+ ENV_TYPE
+ " and is node container "
+ NODE_CONTAINER
+ " are "
+ res.getFailureCount());
List<Failure> testFailures = res.getFailures();
ListIterator<Failure> iter = testFailures.listIterator();
while (iter.hasNext()) {
Failure fail = iter.next();
System.err.println(fail.getDescription());
Throwable e = fail.getException();
if (e != null) e.printStackTrace();
else System.err.println(fail.getTrace());
}
failureCount += res.getFailureCount();
success = res.wasSuccessful();
}
}
}
if (success) System.out.println("All tests successful.");
else System.out.println(failureCount + " tests failed.");
System.out.println("Failures printed to " + errorFile.getName());
}
