void ElementImage::OnPropertyChange(const PropertyNameList& changed_properties) { Element::OnPropertyChange(changed_properties); if (changed_properties.find(BACKGROUND_COLOR) != changed_properties.end() || changed_properties.find(OPACITY) != changed_properties.end()) { GenerateGeometry(); } }
// Repositions the document if necessary. void ElementDocument::OnPropertyChange(const PropertyNameList& changed_properties) { Element::OnPropertyChange(changed_properties); if (changed_properties.find(TOP) != changed_properties.end() || changed_properties.find(RIGHT) != changed_properties.end() || changed_properties.find(BOTTOM) != changed_properties.end() || changed_properties.find(LEFT) != changed_properties.end()) UpdatePosition(); }
void ElementHandle::OnAttributeChange(const PropertyNameList& changed_attributes) { Element::OnAttributeChange(changed_attributes); // Reset initialised state if the move or size targets have changed. if (changed_attributes.find("move_target") != changed_attributes.end() || changed_attributes.find("size_target") != changed_attributes.end()) { initialised = false; move_target = NULL; size_target = NULL; } }
// Repositions the document if necessary. void ElementDocument::OnPropertyChange(const PropertyNameList& changed_properties) { Element::OnPropertyChange(changed_properties); // If the document's font-size has been changed, we need to dirty all rem properties. if (changed_properties.find(FONT_SIZE) != changed_properties.end()) GetStyle()->DirtyRemProperties(); if (changed_properties.find(TOP) != changed_properties.end() || changed_properties.find(RIGHT) != changed_properties.end() || changed_properties.find(BOTTOM) != changed_properties.end() || changed_properties.find(LEFT) != changed_properties.end()) UpdatePosition(); }
// Returns the list of properties this element definition defines for an element with the given set of pseudo-classes. void ElementDefinition::GetDefinedProperties(PropertyNameList& property_names, const PseudoClassList& pseudo_classes) const { for (PropertyMap::const_iterator i = properties.GetProperties().begin(); i != properties.GetProperties().end(); ++i) property_names.insert((*i).first); for (PseudoClassPropertyDictionary::const_iterator i = pseudo_class_properties.begin(); i != pseudo_class_properties.end(); ++i) { // If this property is already in the default dictionary, don't bother checking for it here. if (property_names.find((*i).first) != property_names.end()) continue; const PseudoClassPropertyList& property_list = (*i).second; // Search through all the pseudo-class combinations that have a definition for this property; if the calling // element matches at least one of them, then add it to the list. bool property_defined = false; for (size_t j = 0; j < property_list.size(); ++j) { if (IsPseudoClassRuleApplicable(property_list[j].first, pseudo_classes)) { property_defined = true; break; } } if (property_defined) property_names.insert((*i).first); } }
// Sets a list of properties as dirty. void ElementStyle::DirtyProperties(const PropertyNameList& properties) { if (properties.empty()) return; PropertyNameList inherited_properties; for (PropertyNameList::const_iterator i = properties.begin(); i != properties.end(); ++i) { // If this property is an inherited property, then push it into the list to be passed onto our children. const PropertyDefinition* property = StyleSheetSpecification::GetProperty(*i); if (property != NULL && property->IsInherited()) inherited_properties.insert(*i); } // Pass the list of those properties that are inherited onto our children. if (!inherited_properties.empty()) { for (int i = 0; i < element->GetNumChildren(true); i++) element->GetChild(i)->GetStyle()->DirtyInheritedProperties(inherited_properties); } // And send the event. element->OnPropertyChange(properties); }
// called when element properites are changed void ElementImage::OnPropertyChange(const PropertyNameList& changed_properties) { Rocket::Core::Element::OnPropertyChange(changed_properties); // Check if color property has been changed. if (changed_properties.find(COLOR) != changed_properties.end() ) { geometry_dirty = true; } // Check if opacity has been changed if (changed_properties.find(OPACITY) != changed_properties.end() ) { geometry_dirty = true; } }
void ElementImage::OnPropertyChange(const PropertyNameList& changed_properties) { Element::OnPropertyChange(changed_properties); if (changed_properties.find(COLOR) != changed_properties.end()) { geometry_dirty = true; } }
// Sets a list of properties as dirty. void ElementStyle::DirtyProperties(const PropertyNameList& properties, bool clear_em_properties) { if (properties.empty()) return; bool all_inherited_dirty = StyleSheetSpecification::GetRegisteredProperties() == properties || StyleSheetSpecification::GetRegisteredInheritedProperties() == properties; if (all_inherited_dirty) { const PropertyNameList &all_inherited_properties = StyleSheetSpecification::GetRegisteredInheritedProperties(); for (int i = 0; i < element->GetNumChildren(true); i++) element->GetChild(i)->GetStyle()->DirtyInheritedProperties(all_inherited_properties); // Clear all cached properties. cache->Clear(); } else { PropertyNameList inherited_properties; for (PropertyNameList::const_iterator i = properties.begin(); i != properties.end(); ++i) { // If this property is an inherited property, then push it into the list to be passed onto our children. const PropertyDefinition* property = StyleSheetSpecification::GetProperty(*i); if (property != NULL && property->IsInherited()) inherited_properties.insert(*i); } // Pass the list of those properties that are inherited onto our children. if (!inherited_properties.empty()) { for (int i = 0; i < element->GetNumChildren(true); i++) element->GetChild(i)->GetStyle()->DirtyInheritedProperties(inherited_properties); } // Clear cached properties. cache->Clear(); } // clear the list of EM-properties, we will refill it in DirtyEmProperties if (clear_em_properties && em_properties != NULL) { delete em_properties; em_properties = NULL; } // And send the event. element->OnPropertyChange(properties); }
// Sets a list of our potentially inherited properties as dirtied by an ancestor. void ElementStyle::DirtyInheritedProperties(const PropertyNameList& properties) { PropertyNameList inherited_properties; for (PropertyNameList::const_iterator i = properties.begin(); i != properties.end(); ++i) { if (GetLocalProperty((*i)) == NULL) inherited_properties.insert(*i); } if (inherited_properties.empty()) return; // Pass the list of those properties that this element doesn't override onto our children. for (int i = 0; i < element->GetNumChildren(true); i++) element->GetChild(i)->GetStyle()->DirtyInheritedProperties(inherited_properties); element->OnPropertyChange(properties); }
// Returns the list of properties this element definition has explicit definitions for involving the given // pseudo-class. void ElementDefinition::GetDefinedProperties(PropertyNameList& property_names, const PseudoClassList& pseudo_classes, const String& pseudo_class) const { for (PseudoClassPropertyDictionary::const_iterator i = pseudo_class_properties.begin(); i != pseudo_class_properties.end(); ++i) { // If this property has already been found, don't bother checking for it again. if (property_names.find((*i).first) != property_names.end()) continue; const PseudoClassPropertyList& property_list = (*i).second; bool property_defined = false; for (size_t j = 0; j < property_list.size(); ++j) { bool rule_valid = true; bool found_toggled_pseudo_class = false; const StringList& rule_pseudo_classes = property_list[j].first; for (size_t j = 0; j < rule_pseudo_classes.size(); ++j) { if (rule_pseudo_classes[j] == pseudo_class) { found_toggled_pseudo_class = true; continue; } if (pseudo_classes.find(rule_pseudo_classes[j]) == pseudo_classes.end()) { rule_valid = false; break; } } if (rule_valid && found_toggled_pseudo_class) { property_defined = true; break; } } if (property_defined) property_names.insert((*i).first); } }
// Sets a list of our potentially inherited properties as dirtied by an ancestor. void ElementStyle::DirtyInheritedProperties(const PropertyNameList& properties) { bool clear_em_properties = em_properties != NULL; PropertyNameList inherited_properties; for (PropertyNameList::const_iterator i = properties.begin(); i != properties.end(); ++i) { const Property *property = GetLocalProperty((*i)); if (property == NULL) { inherited_properties.insert(*i); if (!clear_em_properties && em_properties != NULL && em_properties->find((*i)) != em_properties->end()) { clear_em_properties = true; } } } if (inherited_properties.empty()) return; // clear the list of EM-properties, we will refill it in DirtyEmProperties if (clear_em_properties && em_properties != NULL) { delete em_properties; em_properties = NULL; } // Clear cached inherited properties. cache->ClearInherited(); // Pass the list of those properties that this element doesn't override onto our children. for (int i = 0; i < element->GetNumChildren(true); i++) element->GetChild(i)->GetStyle()->DirtyInheritedProperties(inherited_properties); element->OnPropertyChange(properties); }
void ElementTextDefault::OnPropertyChange(const PropertyNameList& changed_properties) { Element::OnPropertyChange(changed_properties); bool colour_changed = false; bool font_face_changed = false; if (changed_properties.find(COLOR) != changed_properties.end()) { // Fetch our (potentially) new colour. Colourb new_colour = GetProperty(COLOR)->value.Get< Colourb >(); colour_changed = colour != new_colour; if (colour_changed) colour = new_colour; } if (changed_properties.find(FONT_FAMILY) != changed_properties.end() || changed_properties.find(FONT_CHARSET) != changed_properties.end() || changed_properties.find(FONT_WEIGHT) != changed_properties.end() || changed_properties.find(FONT_STYLE) != changed_properties.end() || changed_properties.find(FONT_SIZE) != changed_properties.end()) { font_face_changed = true; geometry.clear(); font_dirty = true; } if (changed_properties.find(TEXT_DECORATION) != changed_properties.end()) { decoration_property = GetProperty< int >(TEXT_DECORATION); if (decoration_property != TEXT_DECORATION_NONE) { if (decoration_property != generated_decoration) { decoration.Release(true); FontFaceHandle* font_face_handle = GetFontFaceHandle(); if (font_face_handle != NULL) { for (size_t i = 0; i < lines.size(); ++i) GenerateDecoration(font_face_handle, lines[i]); } generated_decoration = decoration_property; } } } if (font_face_changed) { // We have to let our document know we need to be regenerated. if (dirty_layout_on_change) DirtyLayout(); } else if (colour_changed) { // Force the geometry to be regenerated. geometry_dirty = true; // Re-colour the decoration geometry. Container::vector< Vertex >::Type& vertices = decoration.GetVertices(); for (size_t i = 0; i < vertices.size(); ++i) vertices[i].colour = colour; decoration.Release(); } }
// Dirties em-relative properties. void ElementStyle::DirtyEmProperties() { PropertyNameList properties; StyleSheetSpecification::GetRegisteredProperties(properties); // Check if any of these are currently em-relative. If so, dirty them. PropertyNameList em_properties; for (PropertyNameList::iterator list_iterator = properties.begin(); list_iterator != properties.end(); ++list_iterator) { // Skip font-size; this is relative to our parent's em, not ours. if (*list_iterator == FONT_SIZE) continue; // Get this element from this element. If this is em-relative, then add it to the list to // dirty. if (element->GetProperty(*list_iterator)->unit == Property::EM) em_properties.insert(*list_iterator); } if (!em_properties.empty()) DirtyProperties(em_properties); // Now dirty all of our descendant's font-size properties that are relative to ems. int num_children = element->GetNumChildren(true); for (int i = 0; i < num_children; ++i) element->GetChild(i)->GetStyle()->DirtyInheritedEmProperties(); }