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|
/**
* @file lluictrlfactory.cpp
* @brief Factory class for creating UI controls
*
* $LicenseInfo:firstyear=2003&license=viewergpl$
*
* Copyright (c) 2003-2009, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlifegrid.net/programs/open_source/licensing/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at
* http://secondlifegrid.net/programs/open_source/licensing/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "lluictrlfactory.h"
#include <fstream>
#include <boost/tokenizer.hpp>
// other library includes
#include "llcontrol.h"
#include "lldir.h"
#include "v4color.h"
#include "v3dmath.h"
#include "llquaternion.h"
// this library includes
#include "llbutton.h"
#include "llcheckboxctrl.h"
//#include "llcolorswatch.h"
#include "llcombobox.h"
#include "llcontrol.h"
#include "lldir.h"
#include "llevent.h"
#include "llfloater.h"
#include "lliconctrl.h"
#include "lllineeditor.h"
#include "llmenugl.h"
#include "llradiogroup.h"
#include "llscrollcontainer.h"
#include "llscrollingpanellist.h"
#include "llscrolllistctrl.h"
#include "llslider.h"
#include "llsliderctrl.h"
#include "llmultislider.h"
#include "llmultisliderctrl.h"
#include "llspinctrl.h"
#include "lltabcontainer.h"
#include "lltextbox.h"
#include "lltexteditor.h"
#include "llui.h"
#include "llviewborder.h"
const char XML_HEADER[] = "<?xml version=\"1.0\" encoding=\"utf-8\" standalone=\"yes\" ?>\n";
const S32 HPAD = 4;
const S32 VPAD = 4;
const S32 FLOATER_H_MARGIN = 15;
const S32 MIN_WIDGET_HEIGHT = 10;
const S32 MAX_STRING_ATTRIBUTE_SIZE = 40;
LLFastTimer::DeclareTimer FTM_WIDGET_CONSTRUCTION("Widget Construction");
LLFastTimer::DeclareTimer FTM_INIT_FROM_PARAMS("Widget InitFromParams");
LLFastTimer::DeclareTimer FTM_WIDGET_SETUP("Widget Setup");
//-----------------------------------------------------------------------------
// Register widgets that are purely data driven here so they get linked in
#include "llstatview.h"
static LLDefaultChildRegistry::Register<LLStatView>
register_stat_view("stat_view");
//-----------------------------------------------------------------------------
// UI Ctrl class for padding
class LLUICtrlLocate : public LLUICtrl
{
public:
struct Params : public LLInitParam::Block<Params, LLUICtrl::Params>
{
Params()
{
name = "locate";
tab_stop = false;
}
};
LLUICtrlLocate(const Params& p) : LLUICtrl(p) {}
virtual void draw() { }
};
static LLDefaultChildRegistry::Register<LLUICtrlLocate> r1("locate");
//-----------------------------------------------------------------------------
// LLUICtrlFactory()
//-----------------------------------------------------------------------------
LLUICtrlFactory::LLUICtrlFactory()
: mDummyPanel(NULL) // instantiated when first needed
{
}
LLUICtrlFactory::~LLUICtrlFactory()
{
delete mDummyPanel;
mDummyPanel = NULL;
}
void LLUICtrlFactory::loadWidgetTemplate(const std::string& widget_tag, LLInitParam::BaseBlock& block)
{
std::string filename = std::string("widgets") + gDirUtilp->getDirDelimiter() + widget_tag + ".xml";
LLXMLNodePtr root_node;
if (LLUICtrlFactory::getLayeredXMLNode(filename, root_node))
{
LLXUIParser::instance().readXUI(root_node, block);
}
}
//static
void LLUICtrlFactory::createChildren(LLView* viewp, LLXMLNodePtr node, const widget_registry_t& registry, LLXMLNodePtr output_node)
{
if (node.isNull()) return;
for (LLXMLNodePtr child_node = node->getFirstChild(); child_node.notNull(); child_node = child_node->getNextSibling())
{
LLXMLNodePtr outputChild;
if (output_node)
{
outputChild = output_node->createChild("", FALSE);
}
if (!instance().createFromXML(child_node, viewp, LLStringUtil::null, registry, outputChild))
{
std::string child_name = std::string(child_node->getName()->mString);
llwarns << "Could not create widget named " << child_node->getName()->mString << llendl;
}
if (outputChild && !outputChild->mChildren && outputChild->mAttributes.empty() && outputChild->getValue().empty())
{
output_node->deleteChild(outputChild);
}
}
}
LLFastTimer::DeclareTimer FTM_XML_PARSE("XML Reading/Parsing");
//-----------------------------------------------------------------------------
// getLayeredXMLNode()
//-----------------------------------------------------------------------------
bool LLUICtrlFactory::getLayeredXMLNode(const std::string &xui_filename, LLXMLNodePtr& root)
{
LLFastTimer timer(FTM_XML_PARSE);
return LLXMLNode::getLayeredXMLNode(xui_filename, root, LLUI::getXUIPaths());
}
//-----------------------------------------------------------------------------
// getLocalizedXMLNode()
//-----------------------------------------------------------------------------
bool LLUICtrlFactory::getLocalizedXMLNode(const std::string &xui_filename, LLXMLNodePtr& root)
{
LLFastTimer timer(FTM_XML_PARSE);
std::string full_filename = gDirUtilp->findSkinnedFilename(LLUI::getLocalizedSkinPath(), xui_filename);
if (!LLXMLNode::parseFile(full_filename, root, NULL))
{
return false;
}
else
{
return true;
}
}
static LLFastTimer::DeclareTimer BUILD_FLOATERS("Build Floaters");
//-----------------------------------------------------------------------------
// buildFloater()
//-----------------------------------------------------------------------------
void LLUICtrlFactory::buildFloater(LLFloater* floaterp, const std::string& filename, BOOL open_floater, LLXMLNodePtr output_node)
{
LLFastTimer timer(BUILD_FLOATERS);
LLXMLNodePtr root;
//if exporting, only load the language being exported,
//instead of layering localized version on top of english
if (output_node)
{
if (!LLUICtrlFactory::getLocalizedXMLNode(filename, root))
{
llwarns << "Couldn't parse floater from: " << LLUI::getLocalizedSkinPath() + gDirUtilp->getDirDelimiter() + filename << llendl;
return;
}
}
else if (!LLUICtrlFactory::getLayeredXMLNode(filename, root))
{
llwarns << "Couldn't parse floater from: " << LLUI::getSkinPath() + gDirUtilp->getDirDelimiter() + filename << llendl;
return;
}
// root must be called floater
if( !(root->hasName("floater") || root->hasName("multi_floater")) )
{
llwarns << "Root node should be named floater in: " << filename << llendl;
return;
}
lldebugs << "Building floater " << filename << llendl;
mFileNames.push_back(gDirUtilp->findSkinnedFilename(LLUI::getSkinPath(), filename));
{
if (!floaterp->getFactoryMap().empty())
{
mFactoryStack.push_front(&floaterp->getFactoryMap());
}
// for local registry callbacks; define in constructor, referenced in XUI or postBuild
floaterp->getCommitCallbackRegistrar().pushScope();
floaterp->getEnableCallbackRegistrar().pushScope();
floaterp->initFloaterXML(root, floaterp->getParent(), open_floater, output_node);
if (LLUI::sShowXUINames)
{
floaterp->setToolTip(filename);
}
floaterp->getCommitCallbackRegistrar().popScope();
floaterp->getEnableCallbackRegistrar().popScope();
if (!floaterp->getFactoryMap().empty())
{
mFactoryStack.pop_front();
}
}
mFileNames.pop_back();
}
LLFloater* LLUICtrlFactory::buildFloaterFromXML(const std::string& filename, BOOL open_floater)
{
LLFloater* floater = new LLFloater();
buildFloater(floater, filename, open_floater);
return floater;
}
//-----------------------------------------------------------------------------
// saveToXML()
//-----------------------------------------------------------------------------
S32 LLUICtrlFactory::saveToXML(LLView* viewp, const std::string& filename)
{
return 0;
}
static LLFastTimer::DeclareTimer BUILD_PANELS("Build Panels");
//-----------------------------------------------------------------------------
// buildPanel()
//-----------------------------------------------------------------------------
BOOL LLUICtrlFactory::buildPanel(LLPanel* panelp, const std::string& filename, LLXMLNodePtr output_node)
{
LLFastTimer timer(BUILD_PANELS);
BOOL didPost = FALSE;
LLXMLNodePtr root;
//if exporting, only load the language being exported,
//instead of layering localized version on top of english
if (output_node)
{
if (!LLUICtrlFactory::getLocalizedXMLNode(filename, root))
{
llwarns << "Couldn't parse panel from: " << LLUI::getLocalizedSkinPath() + gDirUtilp->getDirDelimiter() + filename << llendl;
return didPost;
}
}
else if (!LLUICtrlFactory::getLayeredXMLNode(filename, root))
{
llwarns << "Couldn't parse panel from: " << LLUI::getSkinPath() + gDirUtilp->getDirDelimiter() + filename << llendl;
return didPost;
}
// root must be called panel
if( !root->hasName("panel" ) )
{
llwarns << "Root node should be named panel in : " << filename << llendl;
return didPost;
}
lldebugs << "Building panel " << filename << llendl;
mFileNames.push_back(gDirUtilp->findSkinnedFilename(LLUI::getSkinPath(), filename));
{
if (!panelp->getFactoryMap().empty())
{
mFactoryStack.push_front(&panelp->getFactoryMap());
}
// for local registry callbacks; define in constructor, referenced in XUI or postBuild
panelp->getCommitCallbackRegistrar().pushScope();
panelp->getEnableCallbackRegistrar().pushScope();
didPost = panelp->initPanelXML(root, NULL, output_node);
panelp->getCommitCallbackRegistrar().popScope();
panelp->getEnableCallbackRegistrar().popScope();
if (LLUI::sShowXUINames)
{
panelp->setToolTip(filename);
}
if (!panelp->getFactoryMap().empty())
{
mFactoryStack.pop_front();
}
}
mFileNames.pop_back();
return didPost;
}
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
LLFastTimer::DeclareTimer FTM_CREATE_FROM_XML("Create child widget");
LLView *LLUICtrlFactory::createFromXML(LLXMLNodePtr node, LLView* parent, const std::string& filename, const widget_registry_t& registry, LLXMLNodePtr output_node)
{
LLFastTimer timer(FTM_CREATE_FROM_XML);
std::string ctrl_type = node->getName()->mString;
LLStringUtil::toLower(ctrl_type);
const LLWidgetCreatorFunc* funcp = registry.getValue(ctrl_type);
if (funcp == NULL)
{
return NULL;
}
if (parent == NULL)
{
if (mDummyPanel == NULL)
{
LLPanel::Params p;
mDummyPanel = create<LLPanel>(p);
}
parent = mDummyPanel;
}
LLView *view = (*funcp)(node, parent, output_node);
if (LLUI::sShowXUINames && view && !filename.empty())
{
view->setToolTip(filename);
}
return view;
}
//-----------------------------------------------------------------------------
// createFactoryPanel()
//-----------------------------------------------------------------------------
LLPanel* LLUICtrlFactory::createFactoryPanel(const std::string& name)
{
std::deque<const LLCallbackMap::map_t*>::iterator itor;
for (itor = mFactoryStack.begin(); itor != mFactoryStack.end(); ++itor)
{
const LLCallbackMap::map_t* factory_map = *itor;
// Look up this panel's name in the map.
LLCallbackMap::map_const_iter_t iter = factory_map->find( name );
if (iter != factory_map->end())
{
// Use the factory to create the panel, instead of using a default LLPanel.
LLPanel *ret = (LLPanel*) iter->second.mCallback( iter->second.mData );
return ret;
}
}
LLPanel::Params panel_p;
return create<LLPanel>(panel_p);
}
//-----------------------------------------------------------------------------
//static
BOOL LLUICtrlFactory::getAttributeColor(LLXMLNodePtr node, const std::string& name, LLColor4& color)
{
std::string colorstring;
BOOL res = node->getAttributeString(name.c_str(), colorstring);
if (res)
{
if (LLUIColorTable::instance().colorExists(colorstring))
{
color.setVec(LLUIColorTable::instance().getColor(colorstring));
}
else
{
res = FALSE;
}
}
if (!res)
{
res = LLColor4::parseColor(colorstring, &color);
}
if (!res)
{
res = node->getAttributeColor(name.c_str(), color);
}
return res;
}
//static
void LLUICtrlFactory::setCtrlParent(LLView* view, LLView* parent, S32 tab_group)
{
if (tab_group < 0) tab_group = parent->getLastTabGroup();
parent->addChild(view, tab_group);
}
// Avoid directly using LLUI and LLDir in the template code
//static
std::string LLUICtrlFactory::findSkinnedFilename(const std::string& filename)
{
return gDirUtilp->findSkinnedFilename(LLUI::getSkinPath(), filename);
}
void LLUICtrlFactory::pushFactoryFunctions(const LLCallbackMap::map_t* map)
{
mFactoryStack.push_back(map);
}
void LLUICtrlFactory::popFactoryFunctions()
{
if (!mFactoryStack.empty())
{
mFactoryStack.pop_back();
}
}
//
// LLXSDWriter
//
LLXSDWriter::LLXSDWriter()
{
registerInspectFunc<bool>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:boolean", _1, _2, _3, _4));
registerInspectFunc<std::string>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:string", _1, _2, _3, _4));
registerInspectFunc<U8>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:unsignedByte", _1, _2, _3, _4));
registerInspectFunc<S8>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:signedByte", _1, _2, _3, _4));
registerInspectFunc<U16>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:unsignedShort", _1, _2, _3, _4));
registerInspectFunc<S16>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:signedShort", _1, _2, _3, _4));
registerInspectFunc<U32>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:unsignedInt", _1, _2, _3, _4));
registerInspectFunc<S32>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:integer", _1, _2, _3, _4));
registerInspectFunc<F32>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:float", _1, _2, _3, _4));
registerInspectFunc<F64>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:double", _1, _2, _3, _4));
registerInspectFunc<LLColor4>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:string", _1, _2, _3, _4));
registerInspectFunc<LLUIColor>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:string", _1, _2, _3, _4));
registerInspectFunc<LLUUID>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:string", _1, _2, _3, _4));
registerInspectFunc<LLSD>(boost::bind(&LLXSDWriter::writeAttribute, this, "xs:string", _1, _2, _3, _4));
}
void LLXSDWriter::writeXSD(const std::string& type_name, LLXMLNodePtr node, const LLInitParam::BaseBlock& block, const std::string& xml_namespace)
{
mSchemaNode = node;
node->setName("xs:schema");
node->createChild("attributeFormDefault", true)->setStringValue("unqualified");
node->createChild("elementFormDefault", true)->setStringValue("qualified");
node->createChild("targetNamespace", true)->setStringValue(xml_namespace);
node->createChild("xmlns:xs", true)->setStringValue("http://www.w3.org/2001/XMLSchema");
node->createChild("xmlns", true)->setStringValue(xml_namespace);
node = node->createChild("xs:complexType", false);
node->createChild("name", true)->setStringValue(type_name);
node->createChild("mixed", true)->setStringValue("true");
mAttributeNode = node;
mElementNode = node->createChild("xs:choice", false);
mElementNode->createChild("minOccurs", true)->setStringValue("0");
mElementNode->createChild("maxOccurs", true)->setStringValue("unbounded");
block.inspectBlock(*this);
// duplicate element choices
LLXMLNodeList children;
mElementNode->getChildren("xs:element", children, FALSE);
for (LLXMLNodeList::iterator child_it = children.begin(); child_it != children.end(); ++child_it)
{
LLXMLNodePtr child_copy = child_it->second->deepCopy();
std::string child_name;
child_copy->getAttributeString("name", child_name);
child_copy->setAttributeString("name", type_name + "." + child_name);
mElementNode->addChild(child_copy);
}
LLXMLNodePtr element_declaration_node = mSchemaNode->createChild("xs:element", false);
element_declaration_node->createChild("name", true)->setStringValue(type_name);
element_declaration_node->createChild("type", true)->setStringValue(type_name);
}
void LLXSDWriter::writeAttribute(const std::string& type, const Parser::name_stack_t& stack, S32 min_count, S32 max_count, const std::vector<std::string>* possible_values)
{
name_stack_t non_empty_names;
std::string attribute_name;
for (name_stack_t::const_iterator it = stack.begin();
it != stack.end();
++it)
{
const std::string& name = it->first;
if (!name.empty())
{
non_empty_names.push_back(*it);
}
}
for (name_stack_t::const_iterator it = non_empty_names.begin();
it != non_empty_names.end();
++it)
{
if (!attribute_name.empty())
{
attribute_name += ".";
}
attribute_name += it->first;
}
// only flag non-nested attributes as mandatory, nested attributes have variant syntax
// that can't be properly constrained in XSD
// e.g. <foo mandatory.value="bar"/> vs <foo><mandatory value="bar"/></foo>
bool attribute_mandatory = min_count == 1 && max_count == 1 && non_empty_names.size() == 1;
// don't bother supporting "Multiple" params as xml attributes
if (max_count <= 1)
{
// add compound attribute to root node
addAttributeToSchema(mAttributeNode, attribute_name, type, attribute_mandatory, possible_values);
}
// now generated nested elements for compound attributes
if (non_empty_names.size() > 1 && !attribute_mandatory)
{
std::string element_name;
// traverse all but last element, leaving that as an attribute name
name_stack_t::const_iterator end_it = non_empty_names.end();
end_it--;
for (name_stack_t::const_iterator it = non_empty_names.begin();
it != end_it;
++it)
{
if (it != non_empty_names.begin())
{
element_name += ".";
}
element_name += it->first;
}
std::string short_attribute_name = non_empty_names.back().first;
LLXMLNodePtr complex_type_node;
// find existing element node here, starting at tail of child list
if (mElementNode->mChildren.notNull())
{
for(LLXMLNodePtr element = mElementNode->mChildren->tail;
element.notNull();
element = element->mPrev)
{
std::string name;
if(element->getAttributeString("name", name) && name == element_name)
{
complex_type_node = element->mChildren->head;
break;
}
}
}
//create complex_type node
//
//<xs:element
// maxOccurs="1"
// minOccurs="0"
// name="name">
// <xs:complexType>
// </xs:complexType>
//</xs:element>
if(complex_type_node.isNull())
{
complex_type_node = mElementNode->createChild("xs:element", false);
complex_type_node->createChild("minOccurs", true)->setIntValue(min_count);
complex_type_node->createChild("maxOccurs", true)->setIntValue(max_count);
complex_type_node->createChild("name", true)->setStringValue(element_name);
complex_type_node = complex_type_node->createChild("xs:complexType", false);
}
addAttributeToSchema(complex_type_node, short_attribute_name, type, false, possible_values);
}
}
void LLXSDWriter::addAttributeToSchema(LLXMLNodePtr type_declaration_node, const std::string& attribute_name, const std::string& type, bool mandatory, const std::vector<std::string>* possible_values)
{
if (!attribute_name.empty())
{
LLXMLNodePtr new_enum_type_node;
if (possible_values != NULL)
{
// custom attribute type, for example
//<xs:simpleType>
// <xs:restriction
// base="xs:string">
// <xs:enumeration
// value="a" />
// <xs:enumeration
// value="b" />
// </xs:restriction>
// </xs:simpleType>
new_enum_type_node = new LLXMLNode("xs:simpleType", false);
LLXMLNodePtr restriction_node = new_enum_type_node->createChild("xs:restriction", false);
restriction_node->createChild("base", true)->setStringValue("xs:string");
for (std::vector<std::string>::const_iterator it = possible_values->begin();
it != possible_values->end();
++it)
{
LLXMLNodePtr enum_node = restriction_node->createChild("xs:enumeration", false);
enum_node->createChild("value", true)->setStringValue(*it);
}
}
string_set_t& attributes_written = mAttributesWritten[type_declaration_node];
string_set_t::iterator found_it = attributes_written.lower_bound(attribute_name);
// attribute not yet declared
if (found_it == attributes_written.end() || attributes_written.key_comp()(attribute_name, *found_it))
{
attributes_written.insert(found_it, attribute_name);
LLXMLNodePtr attribute_node = type_declaration_node->createChild("xs:attribute", false);
// attribute name
attribute_node->createChild("name", true)->setStringValue(attribute_name);
if (new_enum_type_node.notNull())
{
attribute_node->addChild(new_enum_type_node);
}
else
{
// simple attribute type
attribute_node->createChild("type", true)->setStringValue(type);
}
// required or optional
attribute_node->createChild("use", true)->setStringValue(mandatory ? "required" : "optional");
}
// attribute exists...handle collision of same name attributes with potentially different types
else
{
LLXMLNodePtr attribute_declaration;
if (type_declaration_node.notNull())
{
for(LLXMLNodePtr node = type_declaration_node->mChildren->tail;
node.notNull();
node = node->mPrev)
{
std::string name;
if (node->getAttributeString("name", name) && name == attribute_name)
{
attribute_declaration = node;
break;
}
}
}
bool new_type_is_enum = new_enum_type_node.notNull();
bool existing_type_is_enum = !attribute_declaration->hasAttribute("type");
// either type is enum, revert to string in collision
// don't bother to check for enum equivalence
if (new_type_is_enum || existing_type_is_enum)
{
if (attribute_declaration->hasAttribute("type"))
{
attribute_declaration->setAttributeString("type", "xs:string");
}
else
{
attribute_declaration->createChild("type", true)->setStringValue("xs:string");
}
attribute_declaration->deleteChildren("xs:simpleType");
}
else
{
// check for collision of different standard types
std::string existing_type;
attribute_declaration->getAttributeString("type", existing_type);
// if current type is not the same as the new type, revert to strnig
if (existing_type != type)
{
// ...than use most general type, string
attribute_declaration->setAttributeString("type", "string");
}
}
}
}
}
//
// LLXUIXSDWriter
//
void LLXUIXSDWriter::writeXSD(const std::string& type_name, const std::string& path, const LLInitParam::BaseBlock& block)
{
std::string file_name(path);
file_name += type_name + ".xsd";
LLXMLNodePtr root_nodep = new LLXMLNode();
LLXSDWriter::writeXSD(type_name, root_nodep, block, "http://www.lindenlab.com/xui");
// add includes for all possible children
const std::type_info* type = *LLWidgetTypeRegistry::instance().getValue(type_name);
const widget_registry_t* widget_registryp = LLChildRegistryRegistry::instance().getValue(type);
// add include declarations for all valid children
for (widget_registry_t::Registrar::registry_map_t::const_iterator it = widget_registryp->currentRegistrar().beginItems();
it != widget_registryp->currentRegistrar().endItems();
++it)
{
std::string widget_name = it->first;
if (widget_name == type_name)
{
continue;
}
LLXMLNodePtr nodep = new LLXMLNode("xs:include", false);
nodep->createChild("schemaLocation", true)->setStringValue(widget_name + ".xsd");
// add to front of schema
mSchemaNode->addChild(nodep, mSchemaNode);
}
// add choices for valid children
if (widget_registryp)
{
for (widget_registry_t::Registrar::registry_map_t::const_iterator it = widget_registryp->currentRegistrar().beginItems();
it != widget_registryp->currentRegistrar().endItems();
++it)
{
std::string widget_name = it->first;
//<xs:element name="widget_name" type="widget_name">
LLXMLNodePtr widget_node = mElementNode->createChild("xs:element", false);
widget_node->createChild("name", true)->setStringValue(widget_name);
widget_node->createChild("type", true)->setStringValue(widget_name);
}
}
LLFILE* xsd_file = LLFile::fopen(file_name.c_str(), "w");
LLXMLNode::writeHeaderToFile(xsd_file);
root_nodep->writeToFile(xsd_file);
fclose(xsd_file);
}
//
// LLXUIParser
//
LLXUIParser::LLXUIParser()
: mLastWriteGeneration(-1),
mCurReadDepth(0)
{
registerParserFuncs<bool>(boost::bind(&LLXUIParser::readBoolValue, this, _1),
boost::bind(&LLXUIParser::writeBoolValue, this, _1, _2));
registerParserFuncs<std::string>(boost::bind(&LLXUIParser::readStringValue, this, _1),
boost::bind(&LLXUIParser::writeStringValue, this, _1, _2));
registerParserFuncs<U8>(boost::bind(&LLXUIParser::readU8Value, this, _1),
boost::bind(&LLXUIParser::writeU8Value, this, _1, _2));
registerParserFuncs<S8>(boost::bind(&LLXUIParser::readS8Value, this, _1),
boost::bind(&LLXUIParser::writeS8Value, this, _1, _2));
registerParserFuncs<U16>(boost::bind(&LLXUIParser::readU16Value, this, _1),
boost::bind(&LLXUIParser::writeU16Value, this, _1, _2));
registerParserFuncs<S16>(boost::bind(&LLXUIParser::readS16Value, this, _1),
boost::bind(&LLXUIParser::writeS16Value, this, _1, _2));
registerParserFuncs<U32>(boost::bind(&LLXUIParser::readU32Value, this, _1),
boost::bind(&LLXUIParser::writeU32Value, this, _1, _2));
registerParserFuncs<S32>(boost::bind(&LLXUIParser::readS32Value, this, _1),
boost::bind(&LLXUIParser::writeS32Value, this, _1, _2));
registerParserFuncs<F32>(boost::bind(&LLXUIParser::readF32Value, this, _1),
boost::bind(&LLXUIParser::writeF32Value, this, _1, _2));
registerParserFuncs<F64>(boost::bind(&LLXUIParser::readF64Value, this, _1),
boost::bind(&LLXUIParser::writeF64Value, this, _1, _2));
registerParserFuncs<LLColor4>(boost::bind(&LLXUIParser::readColor4Value, this, _1),
boost::bind(&LLXUIParser::writeColor4Value, this, _1, _2));
registerParserFuncs<LLUIColor>(boost::bind(&LLXUIParser::readUIColorValue, this, _1),
boost::bind(&LLXUIParser::writeUIColorValue, this, _1, _2));
registerParserFuncs<LLUUID>(boost::bind(&LLXUIParser::readUUIDValue, this, _1),
boost::bind(&LLXUIParser::writeUUIDValue, this, _1, _2));
registerParserFuncs<LLSD>(boost::bind(&LLXUIParser::readSDValue, this, _1),
boost::bind(&LLXUIParser::writeSDValue, this, _1, _2));
}
static LLFastTimer::DeclareTimer PARSE_XUI("XUI Parsing");
void LLXUIParser::readXUI(LLXMLNodePtr node, LLInitParam::BaseBlock& block, bool silent)
{
LLFastTimer timer(PARSE_XUI);
mNameStack.clear();
mCurReadDepth = 0;
setParseSilently(silent);
if (node.isNull())
{
parserWarning("Invalid node");
}
else
{
readXUIImpl(node, std::string(node->getName()->mString), block);
}
}
bool LLXUIParser::readXUIImpl(LLXMLNodePtr nodep, const std::string& scope, LLInitParam::BaseBlock& block)
{
typedef boost::tokenizer<boost::char_separator<char> > tokenizer;
boost::char_separator<char> sep(".");
bool values_parsed = false;
// submit attributes for current node
values_parsed |= readAttributes(nodep, block);
// treat text contents of xml node as "value" parameter
std::string text_contents = nodep->getSanitizedValue();
if (!text_contents.empty())
{
mCurReadNode = nodep;
mNameStack.push_back(std::make_pair(std::string("value"), newParseGeneration()));
// child nodes are not necessarily valid parameters (could be a child widget)
// so don't complain once we've recursed
bool silent = mCurReadDepth > 0;
if (!block.submitValue(mNameStack, *this, true))
{
mNameStack.pop_back();
block.submitValue(mNameStack, *this, silent);
}
else
{
mNameStack.pop_back();
}
}
// then traverse children
// child node must start with last name of parent node (our "scope")
// for example: "<button><button.param nested_param1="foo"><param.nested_param2 nested_param3="bar"/></button.param></button>"
// which equates to the following nesting:
// button
// param
// nested_param1
// nested_param2
// nested_param3
mCurReadDepth++;
for(LLXMLNodePtr childp = nodep->getFirstChild(); childp.notNull();)
{
std::string child_name(childp->getName()->mString);
S32 num_tokens_pushed = 0;
// for non "dotted" child nodes check to see if child node maps to another widget type
// and if not, treat as a child element of the current node
// e.g. <button><rect left="10"/></button> will interpret <rect> as "button.rect"
// since there is no widget named "rect"
if (child_name.find(".") == std::string::npos)
{
mNameStack.push_back(std::make_pair(child_name, newParseGeneration()));
num_tokens_pushed++;
}
else
{
// parse out "dotted" name into individual tokens
tokenizer name_tokens(child_name, sep);
tokenizer::iterator name_token_it = name_tokens.begin();
if(name_token_it == name_tokens.end())
{
childp = childp->getNextSibling();
continue;
}
// check for proper nesting
if(!scope.empty() && *name_token_it != scope)
{
childp = childp->getNextSibling();
continue;
}
// now ignore first token
++name_token_it;
// copy remaining tokens on to our running token list
for(tokenizer::iterator token_to_push = name_token_it; token_to_push != name_tokens.end(); ++token_to_push)
{
mNameStack.push_back(std::make_pair(*token_to_push, newParseGeneration()));
num_tokens_pushed++;
}
}
// recurse and visit children XML nodes
if(readXUIImpl(childp, mNameStack.empty() ? scope : mNameStack.back().first, block))
{
// child node successfully parsed, remove from DOM
values_parsed = true;
LLXMLNodePtr node_to_remove = childp;
childp = childp->getNextSibling();
nodep->deleteChild(node_to_remove);
}
else
{
childp = childp->getNextSibling();
}
while(num_tokens_pushed-- > 0)
{
mNameStack.pop_back();
}
}
mCurReadDepth--;
return values_parsed;
}
bool LLXUIParser::readAttributes(LLXMLNodePtr nodep, LLInitParam::BaseBlock& block)
{
typedef boost::tokenizer<boost::char_separator<char> > tokenizer;
boost::char_separator<char> sep(".");
bool any_parsed = false;
for(LLXMLAttribList::const_iterator attribute_it = nodep->mAttributes.begin();
attribute_it != nodep->mAttributes.end();
++attribute_it)
{
S32 num_tokens_pushed = 0;
std::string attribute_name(attribute_it->first->mString);
mCurReadNode = attribute_it->second;
tokenizer name_tokens(attribute_name, sep);
// copy remaining tokens on to our running token list
for(tokenizer::iterator token_to_push = name_tokens.begin(); token_to_push != name_tokens.end(); ++token_to_push)
{
mNameStack.push_back(std::make_pair(*token_to_push, newParseGeneration()));
num_tokens_pushed++;
}
// child nodes are not necessarily valid attributes, so don't complain once we've recursed
bool silent = mCurReadDepth > 0;
any_parsed |= block.submitValue(mNameStack, *this, silent);
while(num_tokens_pushed-- > 0)
{
mNameStack.pop_back();
}
}
return any_parsed;
}
void LLXUIParser::writeXUI(LLXMLNodePtr node, const LLInitParam::BaseBlock &block, const LLInitParam::BaseBlock* diff_block)
{
mWriteRootNode = node;
block.serializeBlock(*this, Parser::name_stack_t(), diff_block);
mOutNodes.clear();
}
// go from a stack of names to a specific XML node
LLXMLNodePtr LLXUIParser::getNode(const name_stack_t& stack)
{
name_stack_t name_stack;
for (name_stack_t::const_iterator it = stack.begin();
it != stack.end();
++it)
{
if (!it->first.empty())
{
name_stack.push_back(*it);
}
}
LLXMLNodePtr out_node = mWriteRootNode;
name_stack_t::const_iterator next_it = name_stack.begin();
for (name_stack_t::const_iterator it = name_stack.begin();
it != name_stack.end();
it = next_it)
{
++next_it;
if (it->first.empty())
{
continue;
}
out_nodes_t::iterator found_it = mOutNodes.lower_bound(it->second);
// node with this name not yet written
if (found_it == mOutNodes.end() || mOutNodes.key_comp()(found_it->first, it->second))
{
// make an attribute if we are the last element on the name stack
bool is_attribute = next_it == name_stack.end();
LLXMLNodePtr new_node = new LLXMLNode(it->first.c_str(), is_attribute);
out_node->addChild(new_node);
mOutNodes.insert(found_it, std::make_pair(it->second, new_node));
out_node = new_node;
}
else
{
out_node = found_it->second;
}
}
return (out_node == mWriteRootNode ? LLXMLNodePtr(NULL) : out_node);
}
bool LLXUIParser::readBoolValue(void* val_ptr)
{
S32 value;
bool success = mCurReadNode->getBoolValue(1, &value);
*((bool*)val_ptr) = (value != FALSE);
return success;
}
bool LLXUIParser::writeBoolValue(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setBoolValue(*((bool*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readStringValue(void* val_ptr)
{
*((std::string*)val_ptr) = mCurReadNode->getSanitizedValue();
return true;
}
bool LLXUIParser::writeStringValue(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
const std::string* string_val = reinterpret_cast<const std::string*>(val_ptr);
if (string_val->find('\n') != std::string::npos
|| string_val->size() > MAX_STRING_ATTRIBUTE_SIZE)
{
// don't write strings with newlines into attributes
std::string attribute_name = node->getName()->mString;
LLXMLNodePtr parent_node = node->mParent;
parent_node->deleteChild(node);
// write results in text contents of node
if (attribute_name == "value")
{
// "value" is implicit, just write to parent
node = parent_node;
}
else
{
// create a child that is not an attribute, but with same name
node = parent_node->createChild(attribute_name.c_str(), false);
}
}
node->setStringValue(*string_val);
return true;
}
return false;
}
bool LLXUIParser::readU8Value(void* val_ptr)
{
return mCurReadNode->getByteValue(1, (U8*)val_ptr);
}
bool LLXUIParser::writeU8Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setUnsignedValue(*((U8*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readS8Value(void* val_ptr)
{
S32 value;
if(mCurReadNode->getIntValue(1, &value))
{
*((S8*)val_ptr) = value;
return true;
}
return false;
}
bool LLXUIParser::writeS8Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setIntValue(*((S8*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readU16Value(void* val_ptr)
{
U32 value;
if(mCurReadNode->getUnsignedValue(1, &value))
{
*((U16*)val_ptr) = value;
return true;
}
return false;
}
bool LLXUIParser::writeU16Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setUnsignedValue(*((U16*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readS16Value(void* val_ptr)
{
S32 value;
if(mCurReadNode->getIntValue(1, &value))
{
*((S16*)val_ptr) = value;
return true;
}
return false;
}
bool LLXUIParser::writeS16Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setIntValue(*((S16*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readU32Value(void* val_ptr)
{
return mCurReadNode->getUnsignedValue(1, (U32*)val_ptr);
}
bool LLXUIParser::writeU32Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setUnsignedValue(*((U32*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readS32Value(void* val_ptr)
{
return mCurReadNode->getIntValue(1, (S32*)val_ptr);
}
bool LLXUIParser::writeS32Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setIntValue(*((S32*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readF32Value(void* val_ptr)
{
return mCurReadNode->getFloatValue(1, (F32*)val_ptr);
}
bool LLXUIParser::writeF32Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setFloatValue(*((F32*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readF64Value(void* val_ptr)
{
return mCurReadNode->getDoubleValue(1, (F64*)val_ptr);
}
bool LLXUIParser::writeF64Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setDoubleValue(*((F64*)val_ptr));
return true;
}
return false;
}
bool LLXUIParser::readColor4Value(void* val_ptr)
{
LLColor4* colorp = (LLColor4*)val_ptr;
if(mCurReadNode->getFloatValue(4, colorp->mV) >= 3)
{
return true;
}
return false;
}
bool LLXUIParser::writeColor4Value(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
LLColor4 color = *((LLColor4*)val_ptr);
node->setFloatValue(4, color.mV);
return true;
}
return false;
}
bool LLXUIParser::readUIColorValue(void* val_ptr)
{
LLUIColor* param = (LLUIColor*)val_ptr;
LLColor4 color;
bool success = mCurReadNode->getFloatValue(4, color.mV) >= 3;
if (success)
{
param->set(color);
return true;
}
return false;
}
bool LLXUIParser::writeUIColorValue(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
LLUIColor color = *((LLUIColor*)val_ptr);
//RN: don't write out the color that is represented by a function
// rely on param block exporting to get the reference to the color settings
if (color.isReference()) return false;
node->setFloatValue(4, color.get().mV);
return true;
}
return false;
}
bool LLXUIParser::readUUIDValue(void* val_ptr)
{
LLUUID temp_id;
// LLUUID::set is destructive, so use temporary value
if (temp_id.set(mCurReadNode->getSanitizedValue()))
{
*(LLUUID*)(val_ptr) = temp_id;
return true;
}
return false;
}
bool LLXUIParser::writeUUIDValue(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
node->setStringValue(((LLUUID*)val_ptr)->asString());
return true;
}
return false;
}
bool LLXUIParser::readSDValue(void* val_ptr)
{
*((LLSD*)val_ptr) = LLSD(mCurReadNode->getSanitizedValue());
return true;
}
bool LLXUIParser::writeSDValue(const void* val_ptr, const name_stack_t& stack)
{
LLXMLNodePtr node = getNode(stack);
if (node.notNull())
{
std::string string_val = ((LLSD*)val_ptr)->asString();
if (string_val.find('\n') != std::string::npos || string_val.size() > MAX_STRING_ATTRIBUTE_SIZE)
{
// don't write strings with newlines into attributes
std::string attribute_name = node->getName()->mString;
LLXMLNodePtr parent_node = node->mParent;
parent_node->deleteChild(node);
// write results in text contents of node
if (attribute_name == "value")
{
// "value" is implicit, just write to parent
node = parent_node;
}
else
{
node = parent_node->createChild(attribute_name.c_str(), false);
}
}
node->setStringValue(string_val);
return true;
}
return false;
}
/*virtual*/ std::string LLXUIParser::getCurrentElementName()
{
std::string full_name;
for (name_stack_t::iterator it = mNameStack.begin();
it != mNameStack.end();
++it)
{
full_name += it->first + "."; // build up dotted names: "button.param.nestedparam."
}
return full_name;
}
void LLXUIParser::parserWarning(const std::string& message)
{
#ifdef LL_WINDOWS
// use Visual Studo friendly formatting of output message for easy access to originating xml
llutf16string utf16str = utf8str_to_utf16str(llformat("%s(%d):\t%s", LLUICtrlFactory::getInstance()->getCurFileName().c_str(), mCurReadNode->getLineNumber(), message.c_str()).c_str());
utf16str += '\n';
OutputDebugString(utf16str.c_str());
#else
Parser::parserWarning(message);
#endif
}
void LLXUIParser::parserError(const std::string& message)
{
#ifdef LL_WINDOWS
llutf16string utf16str = utf8str_to_utf16str(llformat("%s(%d):\t%s", LLUICtrlFactory::getInstance()->getCurFileName().c_str(), mCurReadNode->getLineNumber(), message.c_str()).c_str());
utf16str += '\n';
OutputDebugString(utf16str.c_str());
#else
Parser::parserError(message);
#endif
}
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