IndexOutputPtr MockRAMDirectory::createOutput(const String& name)
{
SyncLock syncLock(this);
if (crashed)
boost::throw_exception(IOException(L"cannot createOutput after crash"));
init();
if (preventDoubleWrite && createdFiles.contains(name) && name != L"segments.gen")
boost::throw_exception(IOException(L"file \"" + name + L"\" was already written to"));
if (noDeleteOpenFile && openFiles.contains(name))
boost::throw_exception(IOException(L"MockRAMDirectory: file \"" + name + L"\" is still open: cannot overwrite"));
RAMFilePtr file(newLucene<RAMFile>(shared_from_this()));
if (crashed)
boost::throw_exception(IOException(L"cannot createOutput after crash"));
unSyncedFiles.add(name);
createdFiles.add(name);
RAMFilePtr existing(fileMap.get(name));
// Enforce write once
if (existing && name != L"segments.gen" && preventDoubleWrite)
boost::throw_exception(IOException(L"file " + name + L" already exists"));
else
{
if (existing)
{
_sizeInBytes -= existing->getSizeInBytes();
existing->_directory.reset();
}
fileMap.put(name, file);
}
return newLucene<MockRAMOutputStream>(shared_from_this(), file, name);
}
void PaletteEditor::colourChanged()
{
QColor qc = m_RGBWidget->colour();
Colour c( qc.red(), qc.green(), qc.blue(), qc.alpha() );
Colour existing( m_Proj.GetColour( m_Selected ) );
if (c==existing) {
return;
}
// if the last cmd was a modification of the same colour, we'll just amend it!
// this lets us keep the project up-to-date as user twiddles the colour,
// but also avoids clogging up the undo stack with insane numbers of operations.
Cmd* cmd = m_Ed.TopCmd();
if (cmd)
{
Cmd_PaletteModify* mod = cmd->ToPaletteModify();
if (mod)
{
if (mod->Merge(m_Selected, c))
{
return;
}
}
}
// if we get this far we need a fresh cmd.
cmd = new Cmd_PaletteModify(m_Proj, m_Selected, 1, &c);
m_Ed.AddCmd(cmd);
}
void SeasideNameGroupModel::setRequiredProperty(int properties)
{
if (m_requiredProperty != properties) {
m_requiredProperty = properties;
// Update counts
QList<SeasideNameGroup>::iterator it = m_groups.begin(), end = m_groups.end();
for ( ; it != end; ++it) {
SeasideNameGroup &existing(*it);
int newCount = countFilteredContacts(existing.contactIds);
if (existing.count != newCount) {
existing.count = newCount;
const int row = it - m_groups.begin();
const QModelIndex updateIndex(createIndex(row, 0));
emit dataChanged(updateIndex, updateIndex);
}
}
emit requiredPropertyChanged();
}
}
void CSSAnimations::calculateAnimationUpdate(CSSAnimationUpdate& update, const Element* animatingElement, Element& element, const ComputedStyle& style, ComputedStyle* parentStyle, StyleResolver* resolver)
{
const ElementAnimations* elementAnimations = animatingElement ? animatingElement->elementAnimations() : nullptr;
bool isAnimationStyleChange = elementAnimations && elementAnimations->isAnimationStyleChange();
#if !ENABLE(ASSERT)
// If we're in an animation style change, no animations can have started, been cancelled or changed play state.
// When ASSERT is enabled, we verify this optimization.
if (isAnimationStyleChange)
return;
#endif
const CSSAnimationData* animationData = style.animations();
const CSSAnimations* cssAnimations = elementAnimations ? &elementAnimations->cssAnimations() : nullptr;
const Element* elementForScoping = animatingElement ? animatingElement : &element;
HashSet<AtomicString> inactive;
if (cssAnimations) {
for (const auto& entry : cssAnimations->m_animations)
inactive.add(entry.key);
}
if (style.display() != NONE) {
for (size_t i = 0; animationData && i < animationData->nameList().size(); ++i) {
AtomicString animationName(animationData->nameList()[i]);
if (animationName == CSSAnimationData::initialName())
continue;
const bool isPaused = CSSTimingData::getRepeated(animationData->playStateList(), i) == AnimPlayStatePaused;
Timing timing = animationData->convertToTiming(i);
Timing specifiedTiming = timing;
RefPtr<TimingFunction> keyframeTimingFunction = timing.timingFunction;
timing.timingFunction = Timing::defaults().timingFunction;
RefPtrWillBeRawPtr<StyleRuleKeyframes> keyframesRule = resolver->findKeyframesRule(elementForScoping, animationName);
if (!keyframesRule)
continue; // Cancel the animation if there's no style rule for it.
if (cssAnimations) {
AnimationMap::const_iterator existing(cssAnimations->m_animations.find(animationName));
if (existing != cssAnimations->m_animations.end()) {
inactive.remove(animationName);
const RunningAnimation* runningAnimation = existing->value.get();
Animation* animation = runningAnimation->animation.get();
if (keyframesRule != runningAnimation->styleRule || keyframesRule->version() != runningAnimation->styleRuleVersion || runningAnimation->specifiedTiming != specifiedTiming) {
ASSERT(!isAnimationStyleChange);
update.updateAnimation(animationName, animation, InertEffect::create(
createKeyframeEffectModel(resolver, animatingElement, element, &style, parentStyle, animationName, keyframeTimingFunction.get(), i),
timing, isPaused, animation->unlimitedCurrentTimeInternal()), specifiedTiming, keyframesRule);
}
if (isPaused != animation->paused()) {
ASSERT(!isAnimationStyleChange);
update.toggleAnimationPaused(animationName);
}
continue;
}
}
ASSERT(!isAnimationStyleChange);
update.startAnimation(animationName, InertEffect::create(
createKeyframeEffectModel(resolver, animatingElement, element, &style, parentStyle, animationName, keyframeTimingFunction.get(), i),
timing, isPaused, 0), specifiedTiming, keyframesRule);
}
}
ASSERT(inactive.isEmpty() || cssAnimations);
for (const AtomicString& animationName : inactive) {
ASSERT(!isAnimationStyleChange);
update.cancelAnimation(animationName, *cssAnimations->m_animations.get(animationName)->animation);
}
}
void SeasideNameGroupModel::nameGroupsUpdated(const QHash<QString, QSet<quint32> > &groups)
{
if (groups.isEmpty())
return;
bool wasEmpty = m_groups.isEmpty();
bool insertedRows = false;
if (wasEmpty) {
const QStringList &allGroups = SeasideCache::allNameGroups();
if (!allGroups.isEmpty()) {
beginInsertRows(QModelIndex(), 0, allGroups.count() - 1);
for (int i=0; i<allGroups.count(); i++)
m_groups << SeasideNameGroup(allGroups[i]);
insertedRows = true;
}
}
QHash<QString, QSet<quint32> >::const_iterator it = groups.constBegin(), end = groups.constEnd();
for ( ; it != end; ++it) {
const QString group(it.key());
QList<SeasideNameGroup>::iterator existingIt = m_groups.begin(), existingEnd = m_groups.end();
for ( ; existingIt != existingEnd; ++existingIt) {
SeasideNameGroup &existing(*existingIt);
if (existing.name == group) {
existing.contactIds = it.value();
const int count = countFilteredContacts(existing.contactIds);
if (existing.count != count) {
existing.count = count;
if (!wasEmpty) {
const int row = existingIt - m_groups.begin();
const QModelIndex updateIndex(createIndex(row, 0));
emit dataChanged(updateIndex, updateIndex);
}
}
break;
}
}
if (existingIt == existingEnd) {
// Find the index of this group in the groups list
const QStringList &allGroups = SeasideCache::allNameGroups();
int allIndex = 0;
int groupIndex = 0;
for ( ; allGroups.at(allIndex) != group; ++allIndex) {
if (m_groups.at(groupIndex).name == allGroups.at(allIndex)) {
++groupIndex;
}
}
if (allIndex < allGroups.count()) {
// Insert this group
beginInsertRows(QModelIndex(), groupIndex, groupIndex);
m_groups.insert(groupIndex, SeasideNameGroup(group, it.value()));
endInsertRows();
insertedRows = true;
} else {
qWarning() << "Could not find unknown group in allGroups!" << group;
}
}
}
if (wasEmpty) {
endInsertRows();
}
if (insertedRows) {
emit countChanged();
}
}
void CSSAnimations::calculateAnimationUpdate(CSSAnimationUpdate* update, const Element* animatingElement, Element& element, const RenderStyle& style, RenderStyle* parentStyle, StyleResolver* resolver)
{
const ActiveAnimations* activeAnimations = animatingElement ? animatingElement->activeAnimations() : nullptr;
#if !ENABLE(ASSERT)
// If we're in an animation style change, no animations can have started, been cancelled or changed play state.
// When ASSERT is enabled, we verify this optimization.
if (activeAnimations && activeAnimations->isAnimationStyleChange())
return;
#endif
const CSSAnimationData* animationData = style.animations();
const CSSAnimations* cssAnimations = activeAnimations ? &activeAnimations->cssAnimations() : nullptr;
HashSet<AtomicString> inactive;
if (cssAnimations) {
for (const auto& entry : cssAnimations->m_animations)
inactive.add(entry.key);
}
if (style.display() != NONE) {
for (size_t i = 0; animationData && i < animationData->nameList().size(); ++i) {
AtomicString animationName(animationData->nameList()[i]);
if (animationName == CSSAnimationData::initialName())
continue;
bool isPaused = CSSTimingData::getRepeated(animationData->playStateList(), i) == AnimPlayStatePaused;
// Keyframes and animation properties are snapshotted when the
// animation starts, so we don't need to track changes to these,
// with the exception of play-state.
if (cssAnimations) {
AnimationMap::const_iterator existing(cssAnimations->m_animations.find(animationName));
if (existing != cssAnimations->m_animations.end()) {
inactive.remove(animationName);
AnimationPlayer* player = existing->value.get();
if (isPaused != player->paused()) {
ASSERT(!activeAnimations || !activeAnimations->isAnimationStyleChange());
update->toggleAnimationPaused(animationName);
}
continue;
}
}
Timing timing = animationData->convertToTiming(i);
RefPtr<TimingFunction> keyframeTimingFunction = timing.timingFunction;
timing.timingFunction = Timing::defaults().timingFunction;
AnimatableValueKeyframeVector resolvedKeyframes;
resolveKeyframes(resolver, animatingElement, element, style, parentStyle, animationName, keyframeTimingFunction.get(), resolvedKeyframes);
if (!resolvedKeyframes.isEmpty()) {
ASSERT(!activeAnimations || !activeAnimations->isAnimationStyleChange());
update->startAnimation(animationName, InertAnimation::create(AnimatableValueKeyframeEffectModel::create(resolvedKeyframes), timing, isPaused));
}
}
}
ASSERT(inactive.isEmpty() || cssAnimations);
for (const AtomicString& animationName : inactive) {
ASSERT(!activeAnimations || !activeAnimations->isAnimationStyleChange());
update->cancelAnimation(animationName, *cssAnimations->m_animations.get(animationName));
}
}
void function::add_to_namespace(
object const& name_space, char const* name_, object const& attribute, char const* doc)
{
str const name(name_);
PyObject* const ns = name_space.ptr();
if (attribute.ptr()->ob_type == &function_type)
{
function* new_func = downcast<function>(attribute.ptr());
PyObject* dict = 0;
#if PY_VERSION_HEX < 0x03000000
// Old-style class gone in Python 3
if (PyClass_Check(ns))
dict = ((PyClassObject*)ns)->cl_dict;
else
#endif
if (PyType_Check(ns))
dict = ((PyTypeObject*)ns)->tp_dict;
else
dict = PyObject_GetAttrString(ns, const_cast<char*>("__dict__"));
if (dict == 0)
throw_error_already_set();
handle<> existing(allow_null(::PyObject_GetItem(dict, name.ptr())));
if (existing)
{
if (existing->ob_type == &function_type)
{
new_func->add_overload(
handle<function>(
borrowed(
downcast<function>(existing.get())
)
)
);
}
else if (existing->ob_type == &PyStaticMethod_Type)
{
char const* name_space_name = extract<char const*>(name_space.attr("__name__"));
::PyErr_Format(
PyExc_RuntimeError
, "Boost.Python - All overloads must be exported "
"before calling \'class_<...>(\"%s\").staticmethod(\"%s\")\'"
, name_space_name
, name_
);
throw_error_already_set();
}
}
else if (is_binary_operator(name_))
{
// Binary operators need an additional overload which
// returns NotImplemented, so that Python will try the
// __rxxx__ functions on the other operand. We add this
// when no overloads for the operator already exist.
new_func->add_overload(not_implemented_function());
}
// A function is named the first time it is added to a namespace.
if (new_func->name().is_none())
new_func->m_name = name;
handle<> name_space_name(
allow_null(::PyObject_GetAttrString(name_space.ptr(), const_cast<char*>("__name__"))));
if (name_space_name)
new_func->m_namespace = object(name_space_name);
}
// The PyObject_GetAttrString() or PyObject_GetItem calls above may
// have left an active error
PyErr_Clear();
if (PyObject_SetAttr(ns, name.ptr(), attribute.ptr()) < 0)
throw_error_already_set();
object mutable_attribute(attribute);
/*
if (doc != 0 && docstring_options::show_user_defined_)
{
// Accumulate documentation
if (
PyObject_HasAttrString(mutable_attribute.ptr(), "__doc__")
&& mutable_attribute.attr("__doc__"))
{
mutable_attribute.attr("__doc__") += "\n\n";
mutable_attribute.attr("__doc__") += doc;
}
else {
mutable_attribute.attr("__doc__") = doc;
}
}
if (docstring_options::show_signatures_)
{
if ( PyObject_HasAttrString(mutable_attribute.ptr(), "__doc__")
&& mutable_attribute.attr("__doc__")) {
mutable_attribute.attr("__doc__") += (
mutable_attribute.attr("__doc__")[-1] != "\n" ? "\n\n" : "\n");
}
else {
mutable_attribute.attr("__doc__") = "";
}
function* f = downcast<function>(attribute.ptr());
mutable_attribute.attr("__doc__") += str("\n ").join(make_tuple(
"C++ signature:", f->signature(true)));
}
*/
str _doc;
if (docstring_options::show_py_signatures_)
{
_doc += str(const_cast<const char*>(detail::py_signature_tag));
}
if (doc != 0 && docstring_options::show_user_defined_)
_doc += doc;
if (docstring_options::show_cpp_signatures_)
{
_doc += str(const_cast<const char*>(detail::cpp_signature_tag));
}
if(_doc)
{
object mutable_attribute(attribute);
mutable_attribute.attr("__doc__")= _doc;
}
}
