void HSSRequest::setDTarget(HSSParserNode::p value) { switch (value->getType()) { case HSSParserNodeTypeKeywordConstant: case HSSParserNodeTypeFunctionCall: { this->dTarget = value; if (this->observedTarget) { this->observedTarget->removeObserver(this->observedTargetProperty, HSSObservablePropertyTarget, this); } switch (value->getType()) { case HSSParserNodeTypeKeywordConstant: /** * @todo what here? */ break; case HSSParserNodeTypeFunctionCall: { HSSFunction::p fnct = qSharedPointerCast<HSSFunction > (value)->clone(); if (fnct) { fnct->setScope(this->scope); fnct->setThisObj(this->getThisObj()); QVariant remoteValue = fnct->evaluate(); if (remoteValue.canConvert< HSSSelection::p >()) { HSSSimpleSelection::p selection = remoteValue.value< HSSSelection::p >()->joinAll(); this->target->clear(); this->target->insert(this->target->end(), selection->begin(), selection->end()); } /** * @todo potentially leaking */ fnct->observe(HSSObservablePropertyValue, HSSObservablePropertyTarget, this, new HSSValueChangedCallback<HSSRequest > (this, &HSSRequest::targetChanged)); this->observedTarget = fnct.data(); this->observedTargetProperty = HSSObservablePropertyValue; } break; } default: break; } this->notifyObservers(HSSObservablePropertySrc, &this->src); break; } default: throw AXRWarning("HSSRequest", "Invalid value for src of " + this->name); } }
void HSSRequest::setDSrc(HSSParserNode::p value) { switch (value->getType()) { case HSSParserNodeTypeKeywordConstant: case HSSParserNodeTypeFunctionCall: case HSSParserNodeTypeStringConstant: { this->dSrc = value; if (this->observedSrc) { this->observedSrc->removeObserver(this->observedSrcProperty, HSSObservablePropertySrc, this); } switch (value->getType()) { case HSSParserNodeTypeKeywordConstant: /** * @todo what here? */ break; case HSSParserNodeTypeStringConstant: { HSSStringConstant::p theString = qSharedPointerCast<HSSStringConstant > (value); this->src = QUrl(theString->getValue()); break; } case HSSParserNodeTypeFunctionCall: { HSSFunction::p fnct = qSharedPointerCast<HSSFunction > (value)->clone(); fnct->setScope(this->scope); fnct->setThisObj(this->getThisObj()); QVariant remoteValue = fnct->evaluate(); if (remoteValue.canConvert<AXRString>()) { this->src = QUrl(remoteValue.value<AXRString>()); } break; } default: break; } this->notifyObservers(HSSObservablePropertySrc, &this->src); break; } default: throw AXRWarning("HSSRequest", "Invalid value for src of " + this->name); } }
void HSSColorStop::setDBalance(HSSParserNode::p value) { switch (value->getType()) { case HSSParserNodeTypeNumberConstant: case HSSParserNodeTypePercentageConstant: case HSSParserNodeTypeExpression: this->dBalance = value; this->balance = this->_evaluatePropertyValue( &HSSColorStop::balanceChanged, value, 1., HSSObservablePropertyBalance, this->observedBalance, this->observedBalanceProperty ); break; case HSSParserNodeTypeFunctionCall: { this->dBalance = value; HSSFunction::p fnct = qSharedPointerCast<HSSFunction > (value)->clone(); if (fnct && fnct->isA(HSSFunctionTypeRef)) { fnct->setScope(this->scope); fnct->setThisObj(this->getThisObj()); QVariant remoteValue = fnct->evaluate(); if (remoteValue.canConvert<HSSUnit>()) { this->balance = remoteValue.value<HSSUnit>(); } fnct->observe(HSSObservablePropertyValue, HSSObservablePropertyBalance, this, new HSSValueChangedCallback<HSSColorStop > (this, &HSSColorStop::balanceChanged)); } else { throw AXRWarning("HSSDGradient", "Invalid function type for balance of " + this->name); } break; } default: throw AXRWarning("HSSColorStop", "Invalid value for balance of " + this->name); } this->notifyObservers(HSSObservablePropertyBalance, &this->balance); this->notifyObservers(HSSObservablePropertyValue, NULL); }
void HSSColorStop::setDColor(HSSParserNode::p value) { bool valid = false; switch (value->getType()) { case HSSParserNodeTypeObjectNameConstant: { this->dColor = value; try { HSSObjectNameConstant::p objname = qSharedPointerCast<HSSObjectNameConstant > (value); HSSObjectDefinition::p objdef = this->getController()->objectTreeGet(objname->getValue()); this->setDColor(objdef); valid = true; } catch (const AXRError &e) { e.raise(); } break; } case HSSParserNodeTypeFunctionCall: { this->dColor = value; HSSFunction::p fnct = qSharedPointerCast<HSSFunction > (value)->clone(); if (fnct && fnct->isA(HSSFunctionTypeRef)) { fnct->setScope(this->scope); fnct->setThisObj(this->getThisObj()); QVariant remoteValue = fnct->evaluate(); if (remoteValue.canConvert<HSSRgb::p>()) { this->color = remoteValue.value<HSSRgb::p>(); valid = true; } fnct->observe(HSSObservablePropertyValue, HSSObservablePropertyColor, this, new HSSValueChangedCallback<HSSColorStop > (this, &HSSColorStop::colorChanged)); } break; } case HSSParserNodeTypeKeywordConstant: { HSSKeywordConstant::p theKW = qSharedPointerCast<HSSKeywordConstant>(value); AXRString kwValue = theKW->getValue(); if (kwValue == "black") { this->color = HSSRgb::blackColor(this->getController()); valid = true; } else if (kwValue == "white") { this->color = HSSRgb::whiteColor(this->getController()); valid = true; } else if (kwValue == "transparent") { //the color will remain empty for transparent this->color.clear(); valid = true; } break; } default: break; } switch (value->getStatementType()) { case HSSStatementTypeObjectDefinition: { this->dColor = value; HSSObjectDefinition::p objdef = qSharedPointerCast<HSSObjectDefinition > (value); objdef->setScope(this->scope); objdef->setThisObj(this->getThisObj()); objdef->apply(); HSSObject::p theobj = objdef->getObject(); if (theobj && theobj->isA(HSSObjectTypeRgb)) { this->color = qSharedPointerCast<HSSRgb > (theobj); valid = true; } break; } default: break; } if (!valid) throw AXRWarning("HSSColorStop", "Invalid value for color of " + this->name); this->notifyObservers(HSSObservablePropertyColor, &this->color); this->notifyObservers(HSSObservablePropertyValue, NULL); }
HSSUnit HSSExpression::evaluate() { if (this->isDirty()) { this->setDirty(false); //left switch (this->getLeft()->getType()) { case HSSParserNodeTypeExpression: { HSSExpression::p leftExpression = qSharedPointerCast<HSSExpression > (this->getLeft()); this->leftval = leftExpression->evaluate(); if (this->leftObserved) { this->leftObserved->removeObserver(this->leftObservedProperty, HSSObservablePropertyValue, this); } leftExpression->observe(HSSObservablePropertyValue, HSSObservablePropertyValue, this, new HSSValueChangedCallback<HSSExpression > (this, &HSSExpression::leftChanged)); this->leftObserved = leftExpression.data(); this->leftObservedProperty = HSSObservablePropertyValue; break; } case HSSParserNodeTypeNumberConstant: { HSSNumberConstant::p leftNumber = qSharedPointerCast<HSSNumberConstant > (this->getLeft()); this->leftval = leftNumber->getValue(); break; } case HSSParserNodeTypePercentageConstant: { HSSPercentageConstant::p leftPercentage = qSharedPointerCast<HSSPercentageConstant > (this->getLeft()); this->leftval = leftPercentage->getValue(this->percentageBase); if (this->leftObserved) { this->leftObserved->removeObserver(this->leftObservedProperty, HSSObservablePropertyValue, this); } this->percentageObserved->observe(this->percentageObservedProperty, HSSObservablePropertyValue, this, new HSSValueChangedCallback<HSSExpression > (this, &HSSExpression::leftChanged)); this->leftObserved = this->percentageObserved; this->leftObservedProperty = this->percentageObservedProperty; break; } case HSSParserNodeTypeFunctionCall: { HSSFunction::p leftFunction = qSharedPointerCast<HSSFunction > (this->getLeft()); QVariant remoteValue = leftFunction->evaluate(); if (remoteValue.canConvert<HSSUnit*>()) { this->leftval = *remoteValue.value<HSSUnit*>(); if (this->leftObserved) { this->leftObserved->removeObserver(this->leftObservedProperty, HSSObservablePropertyValue, this); } leftFunction->observe(HSSObservablePropertyValue, HSSObservablePropertyValue, this, new HSSValueChangedCallback<HSSExpression > (this, &HSSExpression::leftChanged)); this->leftObserved = leftFunction.data(); this->leftObservedProperty = HSSObservablePropertyValue; } else { this->rightval = 0.; } break; } default: std_log1("############ HSSExpression::evaluate() unknwown node type in left member"); break; } //right switch (this->getRight()->getType()) { case HSSParserNodeTypeExpression: { HSSExpression::p rightExpression = qSharedPointerCast<HSSExpression > (this->getRight()); this->rightval = rightExpression->evaluate(); if (this->rightObserved) { this->rightObserved->removeObserver(this->rightObservedProperty, HSSObservablePropertyValue, this); } rightExpression->observe(HSSObservablePropertyValue, HSSObservablePropertyValue, this, new HSSValueChangedCallback<HSSExpression > (this, &HSSExpression::rightChanged)); this->rightObserved = rightExpression.data(); this->rightObservedProperty = HSSObservablePropertyValue; break; } case HSSParserNodeTypeNumberConstant: { HSSNumberConstant::p rightNumber = qSharedPointerCast<HSSNumberConstant > (this->getRight()); this->rightval = rightNumber->getValue(); break; } case HSSParserNodeTypePercentageConstant: { HSSPercentageConstant::p rightPercentage = qSharedPointerCast<HSSPercentageConstant > (this->getRight()); this->rightval = rightPercentage->getValue(this->percentageBase); if (this->rightObserved) { this->rightObserved->removeObserver(this->rightObservedProperty, HSSObservablePropertyValue, this); } this->percentageObserved->observe(this->percentageObservedProperty, HSSObservablePropertyValue, this, new HSSValueChangedCallback<HSSExpression > (this, &HSSExpression::rightChanged)); this->rightObserved = this->percentageObserved; this->rightObservedProperty = this->percentageObservedProperty; break; } case HSSParserNodeTypeFunctionCall: { HSSFunction::p rightFunction = qSharedPointerCast<HSSFunction > (this->getRight()); QVariant remoteValue = rightFunction->evaluate(); if (remoteValue.canConvert<HSSUnit*>()) { this->rightval = *remoteValue.value<HSSUnit*>(); if (this->rightObserved) { this->rightObserved->removeObserver(this->rightObservedProperty, HSSObservablePropertyValue, this); } rightFunction->observe(HSSObservablePropertyValue, HSSObservablePropertyValue, this, new HSSValueChangedCallback<HSSExpression > (this, &HSSExpression::rightChanged)); this->rightObserved = rightFunction.data(); this->rightObservedProperty = HSSObservablePropertyValue; } else { this->rightval = 0.; } break; } default: std_log1("############ HSSExpression::evaluate() unknwown node type in right member"); break; } this->setValue(this->calculate(this->leftval, this->rightval)); } return this->getValue(); }