/* * This source file is part of libRocket, the HTML/CSS Interface Middleware * * For the latest information, see http://www.librocket.com * * Copyright (c) 2008-2010 CodePoint Ltd, Shift Technology Ltd * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. * */ #include "precompiled.h" #include "ElementStyle.h" #include #include "../../Include/Rocket/Core/ElementDocument.h" #include "../../Include/Rocket/Core/ElementUtilities.h" #include "../../Include/Rocket/Core/Log.h" #include "../../Include/Rocket/Core/Math.h" #include "../../Include/Rocket/Core/Property.h" #include "../../Include/Rocket/Core/PropertyDefinition.h" #include "../../Include/Rocket/Core/PropertyDictionary.h" #include "../../Include/Rocket/Core/StyleSheetSpecification.h" #include "../../Include/Rocket/Core/TransformPrimitive.h" #include "ElementBackground.h" #include "ElementBorder.h" #include "ElementDecoration.h" #include "ElementDefinition.h" #include "FontFaceHandle.h" #include "ComputeProperty.h" namespace Rocket { namespace Core { ElementStyle::ElementStyle(Element* _element) { local_properties = NULL; em_properties = NULL; definition = NULL; element = _element; definition_dirty = true; } ElementStyle::~ElementStyle() { if (local_properties != NULL) delete local_properties; if (em_properties != NULL) delete em_properties; if (definition != NULL) definition->RemoveReference(); } // Returns the element's definition, updating if necessary. const ElementDefinition* ElementStyle::GetDefinition() { return definition; } // Returns one of this element's properties. const Property* ElementStyle::GetLocalProperty(const String& name, PropertyDictionary* local_properties, ElementDefinition* definition, const PseudoClassList& pseudo_classes) { // Check for overriding local properties. if (local_properties != NULL) { const Property* property = local_properties->GetProperty(name); if (property != NULL) return property; } // Check for a property defined in an RCSS rule. if (definition != NULL) return definition->GetProperty(name, pseudo_classes); return NULL; } // Returns one of this element's properties. const Property* ElementStyle::GetProperty(const String& name, Element* element, PropertyDictionary* local_properties, ElementDefinition* definition, const PseudoClassList& pseudo_classes) { const Property* local_property = GetLocalProperty(name, local_properties, definition, pseudo_classes); if (local_property != NULL) return local_property; // Fetch the property specification. const PropertyDefinition* property = StyleSheetSpecification::GetProperty(name); if (property == NULL) return NULL; // If we can inherit this property, return our parent's property. if (property->IsInherited()) { Element* parent = element->GetParentNode(); while (parent != NULL) { const Property* parent_property = parent->GetStyle()->GetLocalProperty(name); if (parent_property) return parent_property; parent = parent->GetParentNode(); } } // No property available! Return the default value. return property->GetDefaultValue(); } // Apply transition to relevant properties if a transition is defined on element. // Properties that are part of a transition are removed from the properties list. void ElementStyle::TransitionPropertyChanges(Element* element, PropertyNameList& properties, PropertyDictionary* local_properties, ElementDefinition* old_definition, ElementDefinition* new_definition, const PseudoClassList& pseudo_classes_before, const PseudoClassList& pseudo_classes_after) { ROCKET_ASSERT(element); if (!old_definition || !new_definition || properties.empty()) return; if (const Property* transition_property = GetLocalProperty(TRANSITION, local_properties, new_definition, pseudo_classes_after)) { auto transition_list = transition_property->Get(); if (!transition_list.none) { auto add_transition = [&](const Transition& transition) { bool transition_added = false; const Property* start_value = GetProperty(transition.name, element, local_properties, old_definition, pseudo_classes_before); const Property* target_value = GetProperty(transition.name, element, nullptr, new_definition, pseudo_classes_after); if (start_value && target_value && (*start_value != *target_value)) transition_added = element->StartTransition(transition, *start_value, *target_value); return transition_added; }; if (transition_list.all) { Transition transition = transition_list.transitions[0]; for (auto it = properties.begin(); it != properties.end(); ) { transition.name = *it; if (add_transition(transition)) it = properties.erase(it); else ++it; } } else { for (auto& transition : transition_list.transitions) { auto it = properties.find(transition.name); if (it != properties.end()) { if (add_transition(transition)) properties.erase(it); } } } } } } void ElementStyle::UpdateDefinition() { if (definition_dirty) { definition_dirty = false; ElementDefinition* new_definition = NULL; const StyleSheet* style_sheet = GetStyleSheet(); if (style_sheet != NULL) { new_definition = style_sheet->GetElementDefinition(element); } // Switch the property definitions if the definition has changed. if (new_definition != definition || new_definition == NULL) { PropertyNameList properties; if (definition != NULL) definition->GetDefinedProperties(properties, pseudo_classes); if (new_definition != NULL) new_definition->GetDefinedProperties(properties, pseudo_classes); TransitionPropertyChanges(element, properties, local_properties, definition, new_definition, pseudo_classes, pseudo_classes); if (definition != NULL) definition->RemoveReference(); definition = new_definition; DirtyProperties(properties); element->GetElementDecoration()->DirtyDecorators(true); } else if (new_definition != NULL) { new_definition->RemoveReference(); } } } // Sets or removes a pseudo-class on the element. void ElementStyle::SetPseudoClass(const String& pseudo_class, bool activate) { size_t num_pseudo_classes = pseudo_classes.size(); auto pseudo_classes_before = pseudo_classes; if (activate) pseudo_classes.push_back(pseudo_class); else { // In case of duplicates, we do a loop here. We could do a sort and unique instead, // but that might even be slower for a small list with few duplicates, which // is probably the most common case. auto it = std::find(pseudo_classes.begin(), pseudo_classes.end(), pseudo_class); while(it != pseudo_classes.end()) { pseudo_classes.erase(it); it = std::find(pseudo_classes.begin(), pseudo_classes.end(), pseudo_class); } } if (pseudo_classes.size() != num_pseudo_classes) { element->GetElementDecoration()->DirtyDecorators(false); if (definition != NULL) { PropertyNameList properties; definition->GetDefinedProperties(properties, pseudo_classes, pseudo_class); TransitionPropertyChanges(element, properties, local_properties, definition, definition, pseudo_classes_before, pseudo_classes); DirtyProperties(properties); switch (definition->GetPseudoClassVolatility(pseudo_class)) { case ElementDefinition::FONT_VOLATILE: element->DirtyFont(); break; case ElementDefinition::STRUCTURE_VOLATILE: DirtyChildDefinitions(); break; default: break; } } } } // Checks if a specific pseudo-class has been set on the element. bool ElementStyle::IsPseudoClassSet(const String& pseudo_class) const { return (std::find(pseudo_classes.begin(), pseudo_classes.end(), pseudo_class) != pseudo_classes.end()); } const PseudoClassList& ElementStyle::GetActivePseudoClasses() const { return pseudo_classes; } // Sets or removes a class on the element. void ElementStyle::SetClass(const String& class_name, bool activate) { StringList::iterator class_location = std::find(classes.begin(), classes.end(), class_name); if (activate) { if (class_location == classes.end()) { classes.push_back(class_name); DirtyDefinition(); } } else { if (class_location != classes.end()) { classes.erase(class_location); DirtyDefinition(); } } } // Checks if a class is set on the element. bool ElementStyle::IsClassSet(const String& class_name) const { return std::find(classes.begin(), classes.end(), class_name) != classes.end(); } // Specifies the entire list of classes for this element. This will replace any others specified. void ElementStyle::SetClassNames(const String& class_names) { classes.clear(); StringUtilities::ExpandString(classes, class_names, ' '); DirtyDefinition(); } // Returns the list of classes specified for this element. String ElementStyle::GetClassNames() const { String class_names; for (size_t i = 0; i < classes.size(); i++) { if (i != 0) { class_names += " "; } class_names += classes[i]; } return class_names; } // Sets a local property override on the element. bool ElementStyle::SetProperty(const String& name, const String& value) { if (local_properties == NULL) local_properties = new PropertyDictionary(); if (StyleSheetSpecification::ParsePropertyDeclaration(*local_properties, name, value)) { DirtyProperty(name); return true; } else { Log::Message(Log::LT_WARNING, "Syntax error parsing inline property declaration '%s: %s;'.", name.c_str(), value.c_str()); return false; } } // Sets a local property override on the element to a pre-parsed value. bool ElementStyle::SetProperty(const String& name, const Property& property) { Property new_property = property; new_property.definition = StyleSheetSpecification::GetProperty(name); if (new_property.definition == NULL) return false; if (local_properties == NULL) local_properties = new PropertyDictionary(); local_properties->SetProperty(name, new_property); DirtyProperty(name); return true; } // Removes a local property override on the element. void ElementStyle::RemoveProperty(const String& name) { if (local_properties == NULL) return; if (local_properties->GetProperty(name) != NULL) { local_properties->RemoveProperty(name); DirtyProperty(name); } } // Returns one of this element's properties. const Property* ElementStyle::GetProperty(const String& name) { return GetProperty(name, element, local_properties, definition, pseudo_classes); } // Returns one of this element's properties. const Property* ElementStyle::GetLocalProperty(const String& name) { return GetLocalProperty(name, local_properties, definition, pseudo_classes); } const PropertyMap * ElementStyle::GetLocalProperties() const { if (local_properties) return &local_properties->GetProperties(); return NULL; } float ElementStyle::ResolveNumberLengthPercentage(const Property * property, RelativeTarget relative_target) { // There is an exception on font-size properties, as 'em' units here refer to parent font size instead if ((property->unit & Property::LENGTH) && !(property->unit == Property::EM && relative_target == RelativeTarget::ParentFontSize)) { float result = ComputeLength(property, element->GetComputedValues().font_size, element->GetOwnerDocument()->GetComputedValues().font_size, ElementUtilities::GetDensityIndependentPixelRatio(element)); return result; } float base_value = 0.0f; switch (relative_target) { case RelativeTarget::None: base_value = 1.0f; break; case RelativeTarget::ContainingBlockWidth: base_value = element->GetContainingBlock().x; break; case RelativeTarget::ContainingBlockHeight: base_value = element->GetContainingBlock().y; break; case RelativeTarget::FontSize: base_value = element->GetComputedValues().font_size; break; case RelativeTarget::ParentFontSize: base_value = element->GetParentNode()->GetComputedValues().font_size; break; case RelativeTarget::LineHeight: base_value = element->GetLineHeight(); break; default: break; } float scale_value = 0.0f; switch (property->unit) { case Property::EM: case Property::NUMBER: scale_value = property->value.Get< float >(); break; case Property::PERCENT: scale_value = property->value.Get< float >() * 0.01f; break; } return base_value * scale_value; } // Resolves one of this element's properties. float ElementStyle::ResolveLengthPercentage(const Property* property, float base_value) { if (!property) { ROCKET_ERROR; return 0.0f; } ROCKET_ASSERT(property->unit & Property::LENGTH_PERCENT); const float font_size = element->GetComputedValues().font_size; const float doc_font_size = element->GetOwnerDocument()->GetComputedValues().font_size; const float dp_ratio = ElementUtilities::GetDensityIndependentPixelRatio(element); Style::LengthPercentage computed = ComputeLengthPercentage(property, font_size, doc_font_size, dp_ratio); float result = ResolveValue(computed, base_value); return result; } // Iterates over the properties defined on the element. bool ElementStyle::IterateProperties(int& index, String& name, const Property*& property, const PseudoClassList** property_pseudo_classes) { // First check for locally defined properties. if (local_properties != NULL) { if (index < local_properties->GetNumProperties()) { PropertyMap::const_iterator i = local_properties->GetProperties().begin(); for (int count = 0; count < index; ++count) ++i; name = (*i).first; property = &((*i).second); if (property_pseudo_classes) * property_pseudo_classes = nullptr; ++index; return true; } } const ElementDefinition* definition = GetDefinition(); if (definition != NULL) { int index_offset = 0; if (local_properties != NULL) index_offset = local_properties->GetNumProperties(); // Offset the index to be relative to the definition before we start indexing. When we do get a property back, // check that it hasn't been overridden by the element's local properties; if so, continue on to the next one. index -= index_offset; while (definition->IterateProperties(index, pseudo_classes, name, property, property_pseudo_classes)) { if (local_properties == NULL || local_properties->GetProperty(name) == NULL) { index += index_offset; return true; } } return false; } return false; } // Returns the active style sheet for this element. This may be NULL. StyleSheet* ElementStyle::GetStyleSheet() const { ElementDocument* document = element->GetOwnerDocument(); if (document != NULL) return document->GetStyleSheet(); return NULL; } void ElementStyle::DirtyDefinition() { definition_dirty = true; DirtyChildDefinitions(); } void ElementStyle::DirtyChildDefinitions() { for (int i = 0; i < element->GetNumChildren(true); i++) element->GetChild(i)->GetStyle()->DirtyDefinition(); } // Dirties every property. void ElementStyle::DirtyProperties() { const PropertyNameList &properties = StyleSheetSpecification::GetRegisteredProperties(); DirtyProperties(properties); } // Dirties em-relative properties. void ElementStyle::DirtyEmProperties() { if (!em_properties) { // Check if any of these are currently em-relative. If so, dirty them. em_properties = new PropertyNameList; for (auto& property : StyleSheetSpecification::GetRegisteredProperties()) { // Skip font-size; this is relative to our parent's em, not ours. if (property == FONT_SIZE) continue; // Get this property from this element. If this is em-relative, then add it to the list to // dirty. if (element->GetProperty(property)->unit == Property::EM) em_properties->insert(property); } } if (!em_properties->empty()) DirtyProperties(*em_properties, false); // 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(); } // Dirties font-size on child elements if appropriate. void ElementStyle::DirtyInheritedEmProperties() { const Property* font_size = element->GetLocalProperty(FONT_SIZE); if (font_size == NULL) { int num_children = element->GetNumChildren(true); for (int i = 0; i < num_children; ++i) element->GetChild(i)->GetStyle()->DirtyInheritedEmProperties(); } else { if (font_size->unit & Property::RELATIVE_UNIT) DirtyProperty(FONT_SIZE); } } // Dirties rem properties. void ElementStyle::DirtyRemProperties() { const PropertyNameList &properties = StyleSheetSpecification::GetRegisteredProperties(); PropertyNameList rem_properties; // Dirty all the properties of this element that use the rem unit. for (PropertyNameList::const_iterator list_iterator = properties.begin(); list_iterator != properties.end(); ++list_iterator) { if (element->GetProperty(*list_iterator)->unit == Property::REM) rem_properties.insert(*list_iterator); } if (!rem_properties.empty()) DirtyProperties(rem_properties, false); // Now dirty all of our descendant's properties that use the rem unit. int num_children = element->GetNumChildren(true); for (int i = 0; i < num_children; ++i) element->GetChild(i)->GetStyle()->DirtyRemProperties(); } void ElementStyle::DirtyDpProperties() { const PropertyNameList &properties = StyleSheetSpecification::GetRegisteredProperties(); PropertyNameList dp_properties; // Dirty all the properties of this element that use the dp unit. for (PropertyNameList::const_iterator list_iterator = properties.begin(); list_iterator != properties.end(); ++list_iterator) { if (element->GetProperty(*list_iterator)->unit == Property::DP) dp_properties.insert(*list_iterator); } if (!dp_properties.empty()) DirtyProperties(dp_properties, false); // Now dirty all of our descendant's properties that use the dp unit. int num_children = element->GetNumChildren(true); for (int i = 0; i < num_children; ++i) element->GetChild(i)->GetStyle()->DirtyDpProperties(); } // Sets a single property as dirty. void ElementStyle::DirtyProperty(const String& property) { PropertyNameList properties; properties.insert(String(property)); DirtyProperties(properties); } // 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 = &properties == &StyleSheetSpecification::GetRegisteredProperties() || 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); } 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 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->DirtyProperties(properties); } // 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; } // 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->DirtyProperties(properties); } void ElementStyle::ComputeValues(Style::ComputedValues& values, const Style::ComputedValues* parent_values, const Style::ComputedValues* document_values, bool values_are_default_initialized, float dp_ratio) { // Generally, this is how it works (for now, we can probably be smarter about this): // 1. Assign default values (clears any newly dirtied properties) // 2. Inherit inheritable values from parent // 3. Assign any local properties (from inline style or stylesheet) // The next flag is just a small optimization, if the element was just created we don't need to copy all the default values. if (!values_are_default_initialized) { values = DefaultComputedValues; } // Always do font-size first if dirty, because of em-relative values if (auto p = GetLocalProperty(FONT_SIZE)) values.font_size = ComputeFontsize(*p, values, parent_values, document_values, dp_ratio); else if (parent_values) values.font_size = parent_values->font_size; const float font_size = values.font_size; const float document_font_size = (document_values ? document_values->font_size : DefaultComputedValues.font_size); // Since vertical-align depends on line-height we compute this before iteration if (auto p = GetLocalProperty(LINE_HEIGHT)) { values.line_height = ComputeLineHeight(p, font_size, document_font_size, dp_ratio); } else if (parent_values) { // Line height has a special inheritance case for numbers/percent: they inherit them directly instead of computed length, but for lengths, they inherit the length. // See CSS specs for details. Percent is already converted to number. if (parent_values->line_height.inherit_type == Style::LineHeight::Number) values.line_height = Style::LineHeight(font_size * parent_values->line_height.inherit_value, Style::LineHeight::Number, parent_values->line_height.inherit_value); else values.line_height = parent_values->line_height; } if (parent_values) { // Inherited properties are copied here, but may be overwritten below by locally defined properties // Line-height and font-size are computed above values.clip = parent_values->clip; values.color = parent_values->color; values.opacity = parent_values->opacity; values.font_family = parent_values->font_family; values.font_charset = parent_values->font_charset; values.font_style = parent_values->font_style; values.font_weight = parent_values->font_weight; values.text_align = parent_values->text_align; values.text_decoration = parent_values->text_decoration; values.text_transform = parent_values->text_transform; values.white_space = parent_values->white_space; values.cursor = parent_values->cursor; values.focus = parent_values->focus; values.pointer_events = parent_values->pointer_events; } int index = 0; String name; const Property* p = nullptr; while (IterateProperties(index, name, p)) { using namespace Style; // @performance: Can use a switch-case with constexpr hashing function // Or even better: a PropertyId enum, but the problem is custom properties such as decorators. We may want to redo the decleration of these perhaps... // @performance: Compare to the list of actually changed properties, skip if not inside it if (name == MARGIN_TOP) values.margin_top = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == MARGIN_RIGHT) values.margin_right = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == MARGIN_BOTTOM) values.margin_bottom = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == MARGIN_LEFT) values.margin_left = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == PADDING_TOP) values.padding_top = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == PADDING_RIGHT) values.padding_right = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == PADDING_BOTTOM) values.padding_bottom = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == PADDING_LEFT) values.padding_left = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == BORDER_TOP_WIDTH) values.border_top_width = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == BORDER_RIGHT_WIDTH) values.border_right_width = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == BORDER_BOTTOM_WIDTH) values.border_bottom_width = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == BORDER_LEFT_WIDTH) values.border_left_width = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == BORDER_TOP_COLOR) values.border_top_color = p->Get(); else if (name == BORDER_RIGHT_COLOR) values.border_right_color = p->Get(); else if (name == BORDER_BOTTOM_COLOR) values.border_bottom_color = p->Get(); else if (name == BORDER_LEFT_COLOR) values.border_left_color = p->Get(); else if (name == DISPLAY) values.display = (Display)p->Get(); else if (name == POSITION) values.position = (Position)p->Get(); else if (name == TOP) values.top = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == RIGHT) values.right = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == BOTTOM) values.bottom = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == LEFT) values.left = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == FLOAT) values.float_ = (Float)p->Get(); else if (name == CLEAR) values.clear = (Clear)p->Get(); else if (name == Z_INDEX) values.z_index = (p->unit == Property::KEYWORD ? ZIndex(ZIndex::Auto) : ZIndex(ZIndex::Number, p->Get())); else if (name == WIDTH) values.width = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == MIN_WIDTH) values.min_width = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == MAX_WIDTH) values.max_width = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == HEIGHT) values.height = ComputeLengthPercentageAuto(p, font_size, document_font_size, dp_ratio); else if (name == MIN_HEIGHT) values.min_height = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); else if (name == MAX_HEIGHT) values.max_height = ComputeLengthPercentage(p, font_size, document_font_size, dp_ratio); // (Line-height computed above) else if (name == VERTICAL_ALIGN) values.vertical_align = ComputeVerticalAlign(p, values.line_height.value, font_size, document_font_size, dp_ratio); else if (name == OVERFLOW_X) values.overflow_x = (Overflow)p->Get< int >(); else if (name == OVERFLOW_Y) values.overflow_y = (Overflow)p->Get< int >(); else if (name == CLIP) values.clip = ComputeClip(p); else if (name == VISIBILITY) values.visibility = (Visibility)p->Get< int >(); else if (name == BACKGROUND_COLOR) values.background_color = p->Get(); else if (name == COLOR) values.color = p->Get(); else if (name == IMAGE_COLOR) values.image_color = p->Get(); else if (name == OPACITY) values.opacity = p->Get(); else if (name == FONT_FAMILY) values.font_family = ToLower(p->Get()); else if (name == FONT_CHARSET) values.font_charset = p->Get(); else if (name == FONT_STYLE) values.font_style = (FontStyle)p->Get< int >(); else if (name == FONT_WEIGHT) values.font_weight = (FontWeight)p->Get< int >(); // (font-size computed above) else if (name == TEXT_ALIGN) values.text_align = (TextAlign)p->Get< int >(); else if (name == TEXT_DECORATION) values.text_decoration = (TextDecoration)p->Get< int >(); else if (name == TEXT_TRANSFORM) values.text_transform = (TextTransform)p->Get< int >(); else if (name == WHITE_SPACE) values.white_space = (WhiteSpace)p->Get< int >(); else if (name == CURSOR) values.cursor = p->Get< String >(); else if (name == DRAG) values.drag = (Drag)p->Get< int >(); else if (name == TAB_INDEX) values.tab_index = (TabIndex)p->Get< int >(); else if (name == FOCUS) values.focus = (Focus)p->Get(); else if (name == SCROLLBAR_MARGIN) values.scrollbar_margin = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == POINTER_EVENTS) values.pointer_events = (PointerEvents)p->Get(); else if (name == PERSPECTIVE) values.perspective = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == PERSPECTIVE_ORIGIN_X) values.perspective_origin_x = ComputeOrigin(p, font_size, document_font_size, dp_ratio); else if (name == PERSPECTIVE_ORIGIN_Y) values.perspective_origin_y = ComputeOrigin(p, font_size, document_font_size, dp_ratio); else if (name == TRANSFORM) values.transform = p->Get(); else if(name == TRANSFORM_ORIGIN_X) values.transform_origin_x = ComputeOrigin(p, font_size, document_font_size, dp_ratio); else if (name == TRANSFORM_ORIGIN_Y) values.transform_origin_y = ComputeOrigin(p, font_size, document_font_size, dp_ratio); else if (name == TRANSFORM_ORIGIN_Z) values.transform_origin_z = ComputeLength(p, font_size, document_font_size, dp_ratio); else if (name == TRANSITION) values.transition = p->Get(); else if (name == ANIMATION) values.animation = p->Get(); } } } }