/** * @file lluictrl.cpp * @author James Cook, Richard Nelson, Tom Yedwab * @brief Abstract base class for UI controls * * $LicenseInfo:firstyear=2001&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #define LLUICTRL_CPP #include "lluictrl.h" #include "llviewereventrecorder.h" #include "llfocusmgr.h" #include "llpanel.h" #include "lluictrlfactory.h" #include "lltabcontainer.h" #include "llaccordionctrltab.h" static LLDefaultChildRegistry::Register<LLUICtrl> r("ui_ctrl"); F32 LLUICtrl::sActiveControlTransparency = 1.0f; F32 LLUICtrl::sInactiveControlTransparency = 1.0f; // Compiler optimization, generate extern template template class LLUICtrl* LLView::getChild<class LLUICtrl>( const std::string& name, BOOL recurse) const; LLUICtrl::CallbackParam::CallbackParam() : name("name"), function_name("function"), parameter("parameter"), control_name("control") // Shortcut to control -> "control_name" for backwards compatability { addSynonym(parameter, "userdata"); } LLUICtrl::EnableControls::EnableControls() : enabled("enabled_control"), disabled("disabled_control") {} LLUICtrl::ControlVisibility::ControlVisibility() : visible("visibility_control"), invisible("invisibility_control") { addSynonym(visible, "visiblity_control"); addSynonym(invisible, "invisiblity_control"); } LLUICtrl::Params::Params() : tab_stop("tab_stop", true), chrome("chrome", false), requests_front("requests_front", false), label("label"), initial_value("value"), init_callback("init_callback"), commit_callback("commit_callback"), validate_callback("validate_callback"), mouseenter_callback("mouseenter_callback"), mouseleave_callback("mouseleave_callback"), control_name("control_name"), font("font", LLFontGL::getFontSansSerif()), font_halign("halign"), font_valign("valign"), length("length"), // ignore LLXMLNode cruft type("type") // ignore LLXMLNode cruft { addSynonym(initial_value, "initial_value"); } // NOTE: the LLFocusableElement implementation has been moved from here to llfocusmgr.cpp. //static const LLUICtrl::Params& LLUICtrl::getDefaultParams() { return LLUICtrlFactory::getDefaultParams<LLUICtrl>(); } LLUICtrl::LLUICtrl(const LLUICtrl::Params& p, const LLViewModelPtr& viewmodel) : LLView(p), mIsChrome(FALSE), mRequestsFront(p.requests_front), mTabStop(FALSE), mTentative(FALSE), mViewModel(viewmodel), mControlVariable(NULL), mEnabledControlVariable(NULL), mDisabledControlVariable(NULL), mMakeVisibleControlVariable(NULL), mMakeInvisibleControlVariable(NULL), mCommitSignal(NULL), mValidateSignal(NULL), mMouseEnterSignal(NULL), mMouseLeaveSignal(NULL), mMouseDownSignal(NULL), mMouseUpSignal(NULL), mRightMouseDownSignal(NULL), mRightMouseUpSignal(NULL), mDoubleClickSignal(NULL), mTransparencyType(TT_DEFAULT) { claimMem(viewmodel.get()); } void LLUICtrl::initFromParams(const Params& p) { LLView::initFromParams(p); mRequestsFront = p.requests_front; setIsChrome(p.chrome); setControlName(p.control_name); if(p.enabled_controls.isProvided()) { if (p.enabled_controls.enabled.isChosen()) { LLControlVariable* control = findControl(p.enabled_controls.enabled); if (control) setEnabledControlVariable(control); } else if(p.enabled_controls.disabled.isChosen()) { LLControlVariable* control = findControl(p.enabled_controls.disabled); if (control) setDisabledControlVariable(control); } } if(p.controls_visibility.isProvided()) { if (p.controls_visibility.visible.isChosen()) { LLControlVariable* control = findControl(p.controls_visibility.visible); if (control) setMakeVisibleControlVariable(control); } else if (p.controls_visibility.invisible.isChosen()) { LLControlVariable* control = findControl(p.controls_visibility.invisible); if (control) setMakeInvisibleControlVariable(control); } } setTabStop(p.tab_stop); if (p.initial_value.isProvided() && !p.control_name.isProvided()) { setValue(p.initial_value); } if (p.commit_callback.isProvided()) { setCommitCallback(initCommitCallback(p.commit_callback)); } if (p.validate_callback.isProvided()) { setValidateCallback(initEnableCallback(p.validate_callback)); } if (p.init_callback.isProvided()) { if (p.init_callback.function.isProvided()) { p.init_callback.function()(this, p.init_callback.parameter); } else { commit_callback_t* initfunc = (CommitCallbackRegistry::getValue(p.init_callback.function_name)); if (initfunc) { (*initfunc)(this, p.init_callback.parameter); } } } if(p.mouseenter_callback.isProvided()) { setMouseEnterCallback(initCommitCallback(p.mouseenter_callback)); } if(p.mouseleave_callback.isProvided()) { setMouseLeaveCallback(initCommitCallback(p.mouseleave_callback)); } } LLUICtrl::~LLUICtrl() { gFocusMgr.releaseFocusIfNeeded( this ); // calls onCommit() if( gFocusMgr.getTopCtrl() == this ) { LL_WARNS() << "UI Control holding top ctrl deleted: " << getName() << ". Top view removed." << LL_ENDL; gFocusMgr.removeTopCtrlWithoutCallback( this ); } delete mCommitSignal; delete mValidateSignal; delete mMouseEnterSignal; delete mMouseLeaveSignal; delete mMouseDownSignal; delete mMouseUpSignal; delete mRightMouseDownSignal; delete mRightMouseUpSignal; delete mDoubleClickSignal; } void default_commit_handler(LLUICtrl* ctrl, const LLSD& param) {} bool default_enable_handler(LLUICtrl* ctrl, const LLSD& param) { return true; } LLUICtrl::commit_signal_t::slot_type LLUICtrl::initCommitCallback(const CommitCallbackParam& cb) { if (cb.function.isProvided()) { if (cb.parameter.isProvided()) return boost::bind(cb.function(), _1, cb.parameter); else return cb.function(); } else { std::string function_name = cb.function_name; commit_callback_t* func = (CommitCallbackRegistry::getValue(function_name)); if (func) { if (cb.parameter.isProvided()) return boost::bind((*func), _1, cb.parameter); else return commit_signal_t::slot_type(*func); } else if (!function_name.empty()) { LL_WARNS() << "No callback found for: '" << function_name << "' in control: " << getName() << LL_ENDL; } } return default_commit_handler; } LLUICtrl::enable_signal_t::slot_type LLUICtrl::initEnableCallback(const EnableCallbackParam& cb) { // Set the callback function if (cb.function.isProvided()) { if (cb.parameter.isProvided()) return boost::bind(cb.function(), this, cb.parameter); else return cb.function(); } else { enable_callback_t* func = (EnableCallbackRegistry::getValue(cb.function_name)); if (func) { if (cb.parameter.isProvided()) return boost::bind((*func), this, cb.parameter); else return enable_signal_t::slot_type(*func); } } return default_enable_handler; } // virtual void LLUICtrl::onMouseEnter(S32 x, S32 y, MASK mask) { if (mMouseEnterSignal) { (*mMouseEnterSignal)(this, getValue()); } } // virtual void LLUICtrl::onMouseLeave(S32 x, S32 y, MASK mask) { if(mMouseLeaveSignal) { (*mMouseLeaveSignal)(this, getValue()); } } //virtual BOOL LLUICtrl::handleMouseDown(S32 x, S32 y, MASK mask) { LL_DEBUGS() << "LLUICtrl::handleMouseDown calling LLView)'s handleMouseUp (first initialized xui to: " << getPathname() << " )" << LL_ENDL; BOOL handled = LLView::handleMouseDown(x,y,mask); if (mMouseDownSignal) { (*mMouseDownSignal)(this,x,y,mask); } LL_DEBUGS() << "LLUICtrl::handleMousedown - handled is returning as: " << handled << " " << LL_ENDL; if (handled) { LLViewerEventRecorder::instance().updateMouseEventInfo(x,y,-56,-56,getPathname()); } return handled; } //virtual BOOL LLUICtrl::handleMouseUp(S32 x, S32 y, MASK mask) { LL_DEBUGS() << "LLUICtrl::handleMouseUp calling LLView)'s handleMouseUp (first initialized xui to: " << getPathname() << " )" << LL_ENDL; BOOL handled = LLView::handleMouseUp(x,y,mask); if (handled) { LLViewerEventRecorder::instance().updateMouseEventInfo(x,y,-56,-56,getPathname()); } if (mMouseUpSignal) { (*mMouseUpSignal)(this,x,y,mask); } LL_DEBUGS() << "LLUICtrl::handleMouseUp - handled for xui " << getPathname() << " - is returning as: " << handled << " " << LL_ENDL; return handled; } //virtual BOOL LLUICtrl::handleRightMouseDown(S32 x, S32 y, MASK mask) { BOOL handled = LLView::handleRightMouseDown(x,y,mask); if (mRightMouseDownSignal) { (*mRightMouseDownSignal)(this,x,y,mask); } return handled; } //virtual BOOL LLUICtrl::handleRightMouseUp(S32 x, S32 y, MASK mask) { BOOL handled = LLView::handleRightMouseUp(x,y,mask); if(mRightMouseUpSignal) { (*mRightMouseUpSignal)(this,x,y,mask); } return handled; } BOOL LLUICtrl::handleDoubleClick(S32 x, S32 y, MASK mask) { BOOL handled = LLView::handleDoubleClick(x, y, mask); if (mDoubleClickSignal) { (*mDoubleClickSignal)(this, x, y, mask); } return handled; } // can't tab to children of a non-tab-stop widget BOOL LLUICtrl::canFocusChildren() const { return hasTabStop(); } void LLUICtrl::onCommit() { if (mCommitSignal) (*mCommitSignal)(this, getValue()); } //virtual BOOL LLUICtrl::isCtrl() const { return TRUE; } //virtual void LLUICtrl::setValue(const LLSD& value) { mViewModel->setValue(value); } //virtual LLSD LLUICtrl::getValue() const { return mViewModel->getValue(); } /// When two widgets are displaying the same data (e.g. during a skin /// change), share their ViewModel. void LLUICtrl::shareViewModelFrom(const LLUICtrl& other) { // Because mViewModel is an LLViewModelPtr, this assignment will quietly // dispose of the previous LLViewModel -- unless it's already shared by // somebody else. mViewModel = other.mViewModel; } //virtual LLViewModel* LLUICtrl::getViewModel() const { return mViewModel; } //virtual BOOL LLUICtrl::postBuild() { // // Find all of the children that want to be in front and move them to the front // if (getChildCount() > 0) { std::vector<LLUICtrl*> childrenToMoveToFront; for (LLView::child_list_const_iter_t child_it = beginChild(); child_it != endChild(); ++child_it) { LLUICtrl* uictrl = dynamic_cast<LLUICtrl*>(*child_it); if (uictrl && uictrl->mRequestsFront) { childrenToMoveToFront.push_back(uictrl); } } for (std::vector<LLUICtrl*>::iterator it = childrenToMoveToFront.begin(); it != childrenToMoveToFront.end(); ++it) { sendChildToFront(*it); } } return LLView::postBuild(); } bool LLUICtrl::setControlValue(const LLSD& value) { if (mControlVariable) { mControlVariable->set(value); return true; } return false; } void LLUICtrl::setControlVariable(LLControlVariable* control) { if (mControlVariable) { //RN: this will happen in practice, should we try to avoid it? //LL_WARNS() << "setControlName called twice on same control!" << LL_ENDL; mControlConnection.disconnect(); // disconnect current signal mControlVariable = NULL; } if (control) { mControlVariable = control; mControlConnection = mControlVariable->getSignal()->connect(boost::bind(&controlListener, _2, getHandle(), std::string("value"))); setValue(mControlVariable->getValue()); } } //virtual void LLUICtrl::setControlName(const std::string& control_name, LLView *context) { if (context == NULL) { context = this; } // Register new listener if (!control_name.empty()) { LLControlVariable* control = context->findControl(control_name); setControlVariable(control); } } void LLUICtrl::setEnabledControlVariable(LLControlVariable* control) { if (mEnabledControlVariable) { mEnabledControlConnection.disconnect(); // disconnect current signal mEnabledControlVariable = NULL; } if (control) { mEnabledControlVariable = control; mEnabledControlConnection = mEnabledControlVariable->getSignal()->connect(boost::bind(&controlListener, _2, getHandle(), std::string("enabled"))); setEnabled(mEnabledControlVariable->getValue().asBoolean()); } } void LLUICtrl::setDisabledControlVariable(LLControlVariable* control) { if (mDisabledControlVariable) { mDisabledControlConnection.disconnect(); // disconnect current signal mDisabledControlVariable = NULL; } if (control) { mDisabledControlVariable = control; mDisabledControlConnection = mDisabledControlVariable->getSignal()->connect(boost::bind(&controlListener, _2, getHandle(), std::string("disabled"))); setEnabled(!(mDisabledControlVariable->getValue().asBoolean())); } } void LLUICtrl::setMakeVisibleControlVariable(LLControlVariable* control) { if (mMakeVisibleControlVariable) { mMakeVisibleControlConnection.disconnect(); // disconnect current signal mMakeVisibleControlVariable = NULL; } if (control) { mMakeVisibleControlVariable = control; mMakeVisibleControlConnection = mMakeVisibleControlVariable->getSignal()->connect(boost::bind(&controlListener, _2, getHandle(), std::string("visible"))); setVisible(mMakeVisibleControlVariable->getValue().asBoolean()); } } void LLUICtrl::setMakeInvisibleControlVariable(LLControlVariable* control) { if (mMakeInvisibleControlVariable) { mMakeInvisibleControlConnection.disconnect(); // disconnect current signal mMakeInvisibleControlVariable = NULL; } if (control) { mMakeInvisibleControlVariable = control; mMakeInvisibleControlConnection = mMakeInvisibleControlVariable->getSignal()->connect(boost::bind(&controlListener, _2, getHandle(), std::string("invisible"))); setVisible(!(mMakeInvisibleControlVariable->getValue().asBoolean())); } } // static bool LLUICtrl::controlListener(const LLSD& newvalue, LLHandle<LLUICtrl> handle, std::string type) { LLUICtrl* ctrl = handle.get(); if (ctrl) { if (type == "value") { ctrl->setValue(newvalue); return true; } else if (type == "enabled") { ctrl->setEnabled(newvalue.asBoolean()); return true; } else if(type =="disabled") { ctrl->setEnabled(!newvalue.asBoolean()); return true; } else if (type == "visible") { ctrl->setVisible(newvalue.asBoolean()); return true; } else if (type == "invisible") { ctrl->setVisible(!newvalue.asBoolean()); return true; } } return false; } // virtual BOOL LLUICtrl::setTextArg( const std::string& key, const LLStringExplicit& text ) { return FALSE; } // virtual BOOL LLUICtrl::setLabelArg( const std::string& key, const LLStringExplicit& text ) { return FALSE; } // virtual LLCtrlSelectionInterface* LLUICtrl::getSelectionInterface() { return NULL; } // virtual LLCtrlListInterface* LLUICtrl::getListInterface() { return NULL; } // virtual LLCtrlScrollInterface* LLUICtrl::getScrollInterface() { return NULL; } BOOL LLUICtrl::hasFocus() const { return (gFocusMgr.childHasKeyboardFocus(this)); } void LLUICtrl::setFocus(BOOL b) { // focus NEVER goes to ui ctrls that are disabled! if (!getEnabled()) { return; } if( b ) { if (!hasFocus()) { gFocusMgr.setKeyboardFocus( this ); } } else { if( gFocusMgr.childHasKeyboardFocus(this)) { gFocusMgr.setKeyboardFocus( NULL ); } } } // virtual void LLUICtrl::setTabStop( BOOL b ) { mTabStop = b; } // virtual BOOL LLUICtrl::hasTabStop() const { return mTabStop; } // virtual BOOL LLUICtrl::acceptsTextInput() const { return FALSE; } //virtual BOOL LLUICtrl::isDirty() const { return mViewModel->isDirty(); }; //virtual void LLUICtrl::resetDirty() { mViewModel->resetDirty(); } // virtual void LLUICtrl::onTabInto() { } // virtual void LLUICtrl::clear() { } // virtual void LLUICtrl::setIsChrome(BOOL is_chrome) { mIsChrome = is_chrome; } // virtual BOOL LLUICtrl::getIsChrome() const { LLView* parent_ctrl = getParent(); while(parent_ctrl) { if(parent_ctrl->isCtrl()) { break; } parent_ctrl = parent_ctrl->getParent(); } if(parent_ctrl) { return mIsChrome || ((LLUICtrl*)parent_ctrl)->getIsChrome(); } else { return mIsChrome ; } } LLTrace::BlockTimerStatHandle FTM_FOCUS_FIRST_ITEM("Focus First Item"); BOOL LLUICtrl::focusFirstItem(BOOL prefer_text_fields, BOOL focus_flash) { LL_RECORD_BLOCK_TIME(FTM_FOCUS_FIRST_ITEM); // try to select default tab group child LLViewQuery query = getTabOrderQuery(); child_list_t result = query(this); if(result.size() > 0) { LLUICtrl * ctrl = static_cast<LLUICtrl*>(result.back()); if(!ctrl->hasFocus()) { ctrl->setFocus(TRUE); ctrl->onTabInto(); if(focus_flash) { gFocusMgr.triggerFocusFlash(); } } return TRUE; } // search for text field first if(prefer_text_fields) { LLViewQuery query = getTabOrderQuery(); query.addPreFilter(LLUICtrl::LLTextInputFilter::getInstance()); child_list_t result = query(this); if(result.size() > 0) { LLUICtrl * ctrl = static_cast<LLUICtrl*>(result.back()); if(!ctrl->hasFocus()) { ctrl->setFocus(TRUE); ctrl->onTabInto(); if(focus_flash) { gFocusMgr.triggerFocusFlash(); } } return TRUE; } } // no text field found, or we don't care about text fields result = getTabOrderQuery().run(this); if(result.size() > 0) { LLUICtrl * ctrl = static_cast<LLUICtrl*>(result.back()); if(!ctrl->hasFocus()) { ctrl->setFocus(TRUE); ctrl->onTabInto(); if(focus_flash) { gFocusMgr.triggerFocusFlash(); } } return TRUE; } return FALSE; } BOOL LLUICtrl::focusNextItem(BOOL text_fields_only) { // this assumes that this method is called on the focus root. LLViewQuery query = getTabOrderQuery(); static LLUICachedControl<bool> tab_to_text_fields_only ("TabToTextFieldsOnly", false); if(text_fields_only || tab_to_text_fields_only) { query.addPreFilter(LLUICtrl::LLTextInputFilter::getInstance()); } child_list_t result = query(this); return focusNext(result); } BOOL LLUICtrl::focusPrevItem(BOOL text_fields_only) { // this assumes that this method is called on the focus root. LLViewQuery query = getTabOrderQuery(); static LLUICachedControl<bool> tab_to_text_fields_only ("TabToTextFieldsOnly", false); if(text_fields_only || tab_to_text_fields_only) { query.addPreFilter(LLUICtrl::LLTextInputFilter::getInstance()); } child_list_t result = query(this); return focusPrev(result); } LLUICtrl* LLUICtrl::findRootMostFocusRoot() { LLUICtrl* focus_root = NULL; LLUICtrl* next_view = this; while(next_view && next_view->hasTabStop()) { if (next_view->isFocusRoot()) { focus_root = next_view; } next_view = next_view->getParentUICtrl(); } return focus_root; } // Skip over any parents that are not LLUICtrl's // Used in focus logic since only LLUICtrl elements can have focus LLUICtrl* LLUICtrl::getParentUICtrl() const { LLView* parent = getParent(); while (parent) { if (parent->isCtrl()) { return (LLUICtrl*)(parent); } else { parent = parent->getParent(); } } return NULL; } bool LLUICtrl::findHelpTopic(std::string& help_topic_out) { LLUICtrl* ctrl = this; // search back through the control's parents for a panel // or tab with a help_topic string defined while (ctrl) { LLPanel *panel = dynamic_cast<LLPanel *>(ctrl); if (panel) { LLView *child; LLPanel *subpanel = NULL; // does the panel have a sub-panel with a help topic? bfs_tree_iterator_t it = beginTreeBFS(); // skip ourselves ++it; for (; it != endTreeBFS(); ++it) { child = *it; // do we have a panel with a help topic? LLPanel *panel = dynamic_cast<LLPanel *>(child); if (panel && panel->isInVisibleChain() && !panel->getHelpTopic().empty()) { subpanel = panel; break; } } if (subpanel) { help_topic_out = subpanel->getHelpTopic(); return true; // success (subpanel) } // does the panel have an active tab with a help topic? LLPanel *tab_panel = NULL; it = beginTreeBFS(); // skip ourselves ++it; for (; it != endTreeBFS(); ++it) { child = *it; LLPanel *curTabPanel = NULL; // do we have a tab container? LLTabContainer *tab = dynamic_cast<LLTabContainer *>(child); if (tab && tab->getVisible()) { curTabPanel = tab->getCurrentPanel(); } // do we have an accordion tab? LLAccordionCtrlTab* accordion = dynamic_cast<LLAccordionCtrlTab *>(child); if (accordion && accordion->getDisplayChildren()) { curTabPanel = dynamic_cast<LLPanel *>(accordion->getAccordionView()); } // if we found a valid tab, does it have a help topic? if (curTabPanel && !curTabPanel->getHelpTopic().empty()) { tab_panel = curTabPanel; break; } } if (tab_panel) { help_topic_out = tab_panel->getHelpTopic(); return true; // success (tab) } // otherwise, does the panel have a help topic itself? if (!panel->getHelpTopic().empty()) { help_topic_out = panel->getHelpTopic(); return true; // success (panel) } } ctrl = ctrl->getParentUICtrl(); } return false; // no help topic found } // *TODO: Deprecate; for backwards compatability only: boost::signals2::connection LLUICtrl::setCommitCallback( boost::function<void (LLUICtrl*,void*)> cb, void* data) { return setCommitCallback( boost::bind(cb, _1, data)); } boost::signals2::connection LLUICtrl::setValidateBeforeCommit( boost::function<bool (const LLSD& data)> cb ) { if (!mValidateSignal) mValidateSignal = new enable_signal_t(); claimMem(mValidateSignal); return mValidateSignal->connect(boost::bind(cb, _2)); } // virtual void LLUICtrl::setTentative(BOOL b) { mTentative = b; } // virtual BOOL LLUICtrl::getTentative() const { return mTentative; } // virtual void LLUICtrl::setColor(const LLColor4& color) { } F32 LLUICtrl::getCurrentTransparency() { F32 alpha = 0; switch(mTransparencyType) { case TT_DEFAULT: alpha = getDrawContext().mAlpha; break; case TT_ACTIVE: alpha = sActiveControlTransparency; break; case TT_INACTIVE: alpha = sInactiveControlTransparency; break; case TT_FADING: alpha = sInactiveControlTransparency / 2; break; } return alpha; } void LLUICtrl::setTransparencyType(ETypeTransparency type) { mTransparencyType = type; } boost::signals2::connection LLUICtrl::setCommitCallback(const CommitCallbackParam& cb) { return setCommitCallback(initCommitCallback(cb)); } boost::signals2::connection LLUICtrl::setValidateCallback(const EnableCallbackParam& cb) { return setValidateCallback(initEnableCallback(cb)); } boost::signals2::connection LLUICtrl::setCommitCallback( const commit_signal_t::slot_type& cb ) { if (!mCommitSignal) mCommitSignal = new commit_signal_t(); claimMem(mCommitSignal); return mCommitSignal->connect(cb); } boost::signals2::connection LLUICtrl::setValidateCallback( const enable_signal_t::slot_type& cb ) { if (!mValidateSignal) mValidateSignal = new enable_signal_t(); claimMem(mValidateSignal); return mValidateSignal->connect(cb); } boost::signals2::connection LLUICtrl::setMouseEnterCallback( const commit_signal_t::slot_type& cb ) { if (!mMouseEnterSignal) mMouseEnterSignal = new commit_signal_t(); claimMem(mMouseEnterSignal); return mMouseEnterSignal->connect(cb); } boost::signals2::connection LLUICtrl::setMouseLeaveCallback( const commit_signal_t::slot_type& cb ) { if (!mMouseLeaveSignal) mMouseLeaveSignal = new commit_signal_t(); claimMem(mMouseLeaveSignal); return mMouseLeaveSignal->connect(cb); } boost::signals2::connection LLUICtrl::setMouseDownCallback( const mouse_signal_t::slot_type& cb ) { if (!mMouseDownSignal) mMouseDownSignal = new mouse_signal_t(); claimMem(mMouseDownSignal); return mMouseDownSignal->connect(cb); } boost::signals2::connection LLUICtrl::setMouseUpCallback( const mouse_signal_t::slot_type& cb ) { if (!mMouseUpSignal) mMouseUpSignal = new mouse_signal_t(); claimMem(mMouseUpSignal); return mMouseUpSignal->connect(cb); } boost::signals2::connection LLUICtrl::setRightMouseDownCallback( const mouse_signal_t::slot_type& cb ) { if (!mRightMouseDownSignal) mRightMouseDownSignal = new mouse_signal_t(); claimMem(mRightMouseDownSignal); return mRightMouseDownSignal->connect(cb); } boost::signals2::connection LLUICtrl::setRightMouseUpCallback( const mouse_signal_t::slot_type& cb ) { if (!mRightMouseUpSignal) mRightMouseUpSignal = new mouse_signal_t(); claimMem(mRightMouseUpSignal); return mRightMouseUpSignal->connect(cb); } boost::signals2::connection LLUICtrl::setDoubleClickCallback( const mouse_signal_t::slot_type& cb ) { if (!mDoubleClickSignal) mDoubleClickSignal = new mouse_signal_t(); claimMem(mDoubleClickSignal); return mDoubleClickSignal->connect(cb); } void LLUICtrl::addInfo(LLSD & info) { LLView::addInfo(info); info["value"] = getValue(); }