/** * @file llpanel.cpp * @brief LLPanel base class * * $LicenseInfo:firstyear=2001&license=viewergpl$ * * Copyright (c) 2001-2009, 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. * $/LicenseInfo$ */ // Opaque view with a background and a border. Can contain LLUICtrls. #include "linden_common.h" #include "llpanel.h" #include "llalertdialog.h" #include "llfocusmgr.h" #include "llfontgl.h" #include "llrect.h" #include "llerror.h" #include "lltimer.h" #include "llmenugl.h" //#include "llstatusbar.h" #include "llui.h" #include "llkeyboard.h" #include "lllineeditor.h" #include "llcontrol.h" #include "lltextbox.h" #include "lluictrl.h" #include "lluictrlfactory.h" #include "llviewborder.h" #include "llbutton.h" // LLLayoutStack #include "llresizebar.h" #include "llcriticaldamp.h" LLPanel::alert_queue_t LLPanel::sAlertQueue; const S32 RESIZE_BAR_OVERLAP = 1; const S32 RESIZE_BAR_HEIGHT = 3; static LLRegisterWidget r1("panel"); void LLPanel::init() { // mRectControl mBgColorAlpha = LLUI::sColorsGroup->getColor( "DefaultBackgroundColor" ); mBgColorOpaque = LLUI::sColorsGroup->getColor( "FocusBackgroundColor" ); mDefaultBtnHighlight = LLUI::sColorsGroup->getColor( "DefaultHighlightLight" ); mBgVisible = FALSE; mBgOpaque = FALSE; mBorder = NULL; mDefaultBtn = NULL; setIsChrome(FALSE); //is this a decorator to a live window or a form? mLastTabGroup = 0; mPanelHandle.bind(this); setTabStop(FALSE); } LLPanel::LLPanel() : mRectControl() { init(); setName(std::string("panel")); } LLPanel::LLPanel(const std::string& name) : LLUICtrl(name, LLRect(0, 0, 0, 0), TRUE, NULL, NULL), mRectControl() { init(); } LLPanel::LLPanel(const std::string& name, const LLRect& rect, BOOL bordered) : LLUICtrl(name, rect, TRUE, NULL, NULL), mRectControl() { init(); if (bordered) { addBorder(); } } LLPanel::LLPanel(const std::string& name, const std::string& rect_control, BOOL bordered) : LLUICtrl(name, LLUI::sConfigGroup->getRect(rect_control), TRUE, NULL, NULL), mRectControl( rect_control ) { init(); if (bordered) { addBorder(); } } LLPanel::~LLPanel() { storeRectControl(); } // virtual BOOL LLPanel::isPanel() const { return TRUE; } // virtual BOOL LLPanel::postBuild() { return TRUE; } void LLPanel::addBorder(LLViewBorder::EBevel border_bevel, LLViewBorder::EStyle border_style, S32 border_thickness) { removeBorder(); mBorder = new LLViewBorder( std::string("panel border"), LLRect(0, getRect().getHeight(), getRect().getWidth(), 0), border_bevel, border_style, border_thickness ); mBorder->setSaveToXML(false); addChild( mBorder ); } void LLPanel::removeBorder() { delete mBorder; mBorder = NULL; } // virtual void LLPanel::clearCtrls() { LLView::ctrl_list_t ctrls = getCtrlList(); for (LLView::ctrl_list_t::iterator ctrl_it = ctrls.begin(); ctrl_it != ctrls.end(); ++ctrl_it) { LLUICtrl* ctrl = *ctrl_it; ctrl->setFocus( FALSE ); ctrl->setEnabled( FALSE ); ctrl->clear(); } } void LLPanel::setCtrlsEnabled( BOOL b ) { LLView::ctrl_list_t ctrls = getCtrlList(); for (LLView::ctrl_list_t::iterator ctrl_it = ctrls.begin(); ctrl_it != ctrls.end(); ++ctrl_it) { LLUICtrl* ctrl = *ctrl_it; ctrl->setEnabled( b ); } } void LLPanel::draw() { // draw background if( mBgVisible ) { //RN: I don't see the point of this S32 left = 0;//LLPANEL_BORDER_WIDTH; S32 top = getRect().getHeight();// - LLPANEL_BORDER_WIDTH; S32 right = getRect().getWidth();// - LLPANEL_BORDER_WIDTH; S32 bottom = 0;//LLPANEL_BORDER_WIDTH; if (mBgOpaque ) { gl_rect_2d( left, top, right, bottom, mBgColorOpaque ); } else { gl_rect_2d( left, top, right, bottom, mBgColorAlpha ); } } updateDefaultBtn(); LLView::draw(); } void LLPanel::updateDefaultBtn() { // This method does not call LLView::draw() so callers will need // to take care of that themselves at the appropriate place in // their rendering sequence if( mDefaultBtn) { if (gFocusMgr.childHasKeyboardFocus( this ) && mDefaultBtn->getEnabled()) { LLUICtrl* focus_ctrl = gFocusMgr.getKeyboardFocus(); LLButton* buttonp = dynamic_cast(focus_ctrl); BOOL focus_is_child_button = buttonp && buttonp->getCommitOnReturn(); // only enable default button when current focus is not a return-capturing button mDefaultBtn->setBorderEnabled(!focus_is_child_button); } else { mDefaultBtn->setBorderEnabled(FALSE); } } } void LLPanel::refresh() { // do nothing by default // but is automatically called in setFocus(TRUE) } void LLPanel::setDefaultBtn(LLButton* btn) { if (mDefaultBtn && mDefaultBtn->getEnabled()) { mDefaultBtn->setBorderEnabled(FALSE); } mDefaultBtn = btn; if (mDefaultBtn) { mDefaultBtn->setBorderEnabled(TRUE); } } void LLPanel::setDefaultBtn(const std::string& id) { LLButton *button = getChild(id); if (button) { setDefaultBtn(button); } else { setDefaultBtn(NULL); } } void LLPanel::addCtrl( LLUICtrl* ctrl, S32 tab_group) { mLastTabGroup = tab_group; LLView::addCtrl(ctrl, tab_group); } void LLPanel::addCtrlAtEnd( LLUICtrl* ctrl, S32 tab_group) { mLastTabGroup = tab_group; LLView::addCtrlAtEnd(ctrl, tab_group); } BOOL LLPanel::handleKeyHere( KEY key, MASK mask ) { BOOL handled = FALSE; LLUICtrl* cur_focus = gFocusMgr.getKeyboardFocus(); // handle user hitting ESC to defocus if (key == KEY_ESCAPE) { gFocusMgr.setKeyboardFocus(NULL); return TRUE; } else if( (mask == MASK_SHIFT) && (KEY_TAB == key)) { //SHIFT-TAB if (cur_focus) { LLUICtrl* focus_root = cur_focus->findRootMostFocusRoot(); if (focus_root) { handled = focus_root->focusPrevItem(FALSE); } } } else if( (mask == MASK_NONE ) && (KEY_TAB == key)) { //TAB if (cur_focus) { LLUICtrl* focus_root = cur_focus->findRootMostFocusRoot(); if (focus_root) { handled = focus_root->focusNextItem(FALSE); } } } // If we have a default button, click it when // return is pressed, unless current focus is a return-capturing button // in which case *that* button will handle the return key LLButton* focused_button = dynamic_cast(cur_focus); if (cur_focus && !(focused_button && focused_button->getCommitOnReturn())) { // RETURN key means hit default button in this case if (key == KEY_RETURN && mask == MASK_NONE && mDefaultBtn != NULL && mDefaultBtn->getVisible() && mDefaultBtn->getEnabled()) { mDefaultBtn->onCommit(); handled = TRUE; } } if (key == KEY_RETURN && mask == MASK_NONE) { // set keyboard focus to self to trigger commitOnFocusLost behavior on current ctrl if (cur_focus && cur_focus->acceptsTextInput()) { cur_focus->onCommit(); handled = TRUE; } } return handled; } BOOL LLPanel::checkRequirements() { if (!mRequirementsError.empty()) { LLStringUtil::format_map_t args; args["[COMPONENTS]"] = mRequirementsError; args["[FLOATER]"] = getName(); llwarns << getName() << " failed requirements check on: \n" << mRequirementsError << llendl; alertXml(std::string("FailedRequirementsCheck"), args); mRequirementsError.clear(); return FALSE; } return TRUE; } //static void LLPanel::alertXml(const std::string& label, LLStringUtil::format_map_t args) { sAlertQueue.push(LLAlertInfo(label,args)); } //static BOOL LLPanel::nextAlert(LLAlertInfo &alert) { if (!sAlertQueue.empty()) { alert = sAlertQueue.front(); sAlertQueue.pop(); return TRUE; } return FALSE; } void LLPanel::setFocus(BOOL b) { if( b ) { if (!gFocusMgr.childHasKeyboardFocus(this)) { //refresh(); if (!focusFirstItem()) { LLUICtrl::setFocus(TRUE); } onFocusReceived(); } } else { if( this == gFocusMgr.getKeyboardFocus() ) { gFocusMgr.setKeyboardFocus( NULL ); } else { //RN: why is this here? LLView::ctrl_list_t ctrls = getCtrlList(); for (LLView::ctrl_list_t::iterator ctrl_it = ctrls.begin(); ctrl_it != ctrls.end(); ++ctrl_it) { LLUICtrl* ctrl = *ctrl_it; ctrl->setFocus( FALSE ); } } } } void LLPanel::setBorderVisible(BOOL b) { if (mBorder) { mBorder->setVisible( b ); } } // virtual LLXMLNodePtr LLPanel::getXML(bool save_children) const { LLXMLNodePtr node = LLView::getXML(); if (mBorder && mBorder->getVisible()) { node->createChild("border", TRUE)->setBoolValue(TRUE); } if (!mRectControl.empty()) { node->createChild("rect_control", TRUE)->setStringValue(mRectControl); } if (!mLabel.empty()) { node->createChild("label", TRUE)->setStringValue(mLabel); } if (save_children) { LLView::child_list_const_reverse_iter_t rit; for (rit = getChildList()->rbegin(); rit != getChildList()->rend(); ++rit) { LLView* childp = *rit; if (childp->getSaveToXML()) { LLXMLNodePtr xml_node = childp->getXML(); node->addChild(xml_node); } } } return node; } LLView* LLPanel::fromXML(LLXMLNodePtr node, LLView* parent, LLUICtrlFactory *factory) { std::string name("panel"); node->getAttributeString("name", name); LLPanel* panelp = factory->createFactoryPanel(name); // Fall back on a default panel, if there was no special factory. if (!panelp) { LLRect rect; createRect(node, rect, parent, LLRect()); // create a new panel without a border, by default panelp = new LLPanel(name, rect, FALSE); panelp->initPanelXML(node, parent, factory); // preserve panel's width and height, but override the location const LLRect& panelrect = panelp->getRect(); S32 w = panelrect.getWidth(); S32 h = panelrect.getHeight(); rect.setLeftTopAndSize(rect.mLeft, rect.mTop, w, h); panelp->setRect(rect); } else { panelp->initPanelXML(node, parent, factory); } return panelp; } BOOL LLPanel::initPanelXML(LLXMLNodePtr node, LLView *parent, LLUICtrlFactory *factory) { std::string name = getName(); node->getAttributeString("name", name); setName(name); setPanelParameters(node, parent); initChildrenXML(node, factory); std::string xml_filename; node->getAttributeString("filename", xml_filename); BOOL didPost; if (!xml_filename.empty()) { didPost = factory->buildPanel(this, xml_filename, NULL); LLRect new_rect = getRect(); // override rectangle with embedding parameters as provided createRect(node, new_rect, parent); setOrigin(new_rect.mLeft, new_rect.mBottom); reshape(new_rect.getWidth(), new_rect.getHeight()); // optionally override follows flags from including nodes parseFollowsFlags(node); } else { didPost = FALSE; } if (!didPost) { postBuild(); didPost = TRUE; } return didPost; } void LLPanel::initChildrenXML(LLXMLNodePtr node, LLUICtrlFactory* factory) { LLXMLNodePtr child; for (child = node->getFirstChild(); child.notNull(); child = child->getNextSibling()) { // look for string declarations for programmatic text if (child->hasName("string")) { std::string string_name; child->getAttributeString("name", string_name); if (!string_name.empty()) { mUIStrings[string_name] = child->getTextContents(); } } else { factory->createWidget(this, child); } } } void LLPanel::setPanelParameters(LLXMLNodePtr node, LLView* parent) { /////// Rect, follows, tool_tip, enabled, visible attributes /////// initFromXML(node, parent); /////// Border attributes /////// BOOL border = mBorder != NULL; node->getAttributeBOOL("border", border); if (border) { LLViewBorder::EBevel bevel_style = LLViewBorder::BEVEL_OUT; LLViewBorder::getBevelFromAttribute(node, bevel_style); LLViewBorder::EStyle border_style = LLViewBorder::STYLE_LINE; std::string border_string; node->getAttributeString("border_style", border_string); LLStringUtil::toLower(border_string); if (border_string == "texture") { border_style = LLViewBorder::STYLE_TEXTURE; } S32 border_thickness = LLPANEL_BORDER_WIDTH; node->getAttributeS32("border_thickness", border_thickness); addBorder(bevel_style, border_style, border_thickness); } else { removeBorder(); } /////// Background attributes /////// BOOL background_visible = mBgVisible; node->getAttributeBOOL("background_visible", background_visible); setBackgroundVisible(background_visible); BOOL background_opaque = mBgOpaque; node->getAttributeBOOL("background_opaque", background_opaque); setBackgroundOpaque(background_opaque); LLColor4 color; color = mBgColorOpaque; LLUICtrlFactory::getAttributeColor(node,"bg_opaque_color", color); setBackgroundColor(color); color = mBgColorAlpha; LLUICtrlFactory::getAttributeColor(node,"bg_alpha_color", color); setTransparentColor(color); std::string label = getLabel(); node->getAttributeString("label", label); setLabel(label); } std::string LLPanel::getString(const std::string& name, const LLStringUtil::format_map_t& args) const { ui_string_map_t::const_iterator found_it = mUIStrings.find(name); if (found_it != mUIStrings.end()) { // make a copy as format works in place LLUIString formatted_string = LLUIString(found_it->second); formatted_string.setArgList(args); return formatted_string.getString(); } std::string err_str("Failed to find string " + name + " in panel " + getName()); //*TODO: Translate // *TODO: once the QAR-369 ui-cleanup work on settings is in we need to change the following line to be //if(LLUI::sConfigGroup->getBOOL("QAMode")) if(LLUI::sQAMode) { llerrs << err_str << llendl; } else { llwarns << err_str << llendl; } return LLStringUtil::null; } std::string LLPanel::getString(const std::string& name) const { ui_string_map_t::const_iterator found_it = mUIStrings.find(name); if (found_it != mUIStrings.end()) { return found_it->second; } std::string err_str("Failed to find string " + name + " in panel " + getName()); //*TODO: Translate if(LLUI::sQAMode) { llerrs << err_str << llendl; } else { llwarns << err_str << llendl; } return LLStringUtil::null; } void LLPanel::childSetVisible(const std::string& id, bool visible) { LLView* child = getChild(id); if (child) { child->setVisible(visible); } } bool LLPanel::childIsVisible(const std::string& id) const { LLView* child = getChild(id); if (child) { return (bool)child->getVisible(); } return false; } void LLPanel::childSetEnabled(const std::string& id, bool enabled) { LLView* child = getChild(id); if (child) { child->setEnabled(enabled); } } void LLPanel::childSetTentative(const std::string& id, bool tentative) { LLView* child = getChild(id); if (child) { child->setTentative(tentative); } } bool LLPanel::childIsEnabled(const std::string& id) const { LLView* child = getChild(id); if (child) { return (bool)child->getEnabled(); } return false; } void LLPanel::childSetToolTip(const std::string& id, const std::string& msg) { LLView* child = getChild(id); if (child) { child->setToolTip(msg); } } void LLPanel::childSetRect(const std::string& id, const LLRect& rect) { LLView* child = getChild(id); if (child) { child->setRect(rect); } } bool LLPanel::childGetRect(const std::string& id, LLRect& rect) const { LLView* child = getChild(id); if (child) { rect = child->getRect(); return true; } return false; } void LLPanel::childSetFocus(const std::string& id, BOOL focus) { LLUICtrl* child = getChild(id, true); if (child) { child->setFocus(focus); } } BOOL LLPanel::childHasFocus(const std::string& id) { LLUICtrl* child = getChild(id, true); if (child) { return child->hasFocus(); } else { childNotFound(id); return FALSE; } } void LLPanel::childSetFocusChangedCallback(const std::string& id, void (*cb)(LLFocusableElement*, void*), void* user_data) { LLUICtrl* child = getChild(id, true); if (child) { child->setFocusChangedCallback(cb, user_data); } } void LLPanel::childSetCommitCallback(const std::string& id, void (*cb)(LLUICtrl*, void*), void *userdata ) { LLUICtrl* child = getChild(id, true); if (child) { child->setCommitCallback(cb); child->setCallbackUserData(userdata); } } void LLPanel::childSetDoubleClickCallback(const std::string& id, void (*cb)(void*), void *userdata ) { LLUICtrl* child = getChild(id, true); if (child) { child->setDoubleClickCallback(cb); if (userdata) { child->setCallbackUserData(userdata); } } } void LLPanel::childSetValidate(const std::string& id, BOOL (*cb)(LLUICtrl*, void*)) { LLUICtrl* child = getChild(id, true); if (child) { child->setValidateBeforeCommit(cb); } } void LLPanel::childSetUserData(const std::string& id, void* userdata) { LLUICtrl* child = getChild(id, true); if (child) { child->setCallbackUserData(userdata); } } void LLPanel::childSetColor(const std::string& id, const LLColor4& color) { LLUICtrl* child = getChild(id, true); if (child) { child->setColor(color); } } LLCtrlSelectionInterface* LLPanel::childGetSelectionInterface(const std::string& id) const { LLUICtrl* child = getChild(id, true); if (child) { return child->getSelectionInterface(); } return NULL; } LLCtrlListInterface* LLPanel::childGetListInterface(const std::string& id) const { LLUICtrl* child = getChild(id, true); if (child) { return child->getListInterface(); } return NULL; } LLCtrlScrollInterface* LLPanel::childGetScrollInterface(const std::string& id) const { LLUICtrl* child = getChild(id, true); if (child) { return child->getScrollInterface(); } return NULL; } void LLPanel::childSetValue(const std::string& id, LLSD value) { LLView* child = getChild(id, true); if (child) { child->setValue(value); } } LLSD LLPanel::childGetValue(const std::string& id) const { LLView* child = getChild(id, true); if (child) { return child->getValue(); } // Not found => return undefined return LLSD(); } BOOL LLPanel::childSetTextArg(const std::string& id, const std::string& key, const LLStringExplicit& text) { LLUICtrl* child = getChild(id, true); if (child) { return child->setTextArg(key, text); } return FALSE; } BOOL LLPanel::childSetLabelArg(const std::string& id, const std::string& key, const LLStringExplicit& text) { LLView* child = getChild(id); if (child) { return child->setLabelArg(key, text); } return FALSE; } BOOL LLPanel::childSetToolTipArg(const std::string& id, const std::string& key, const LLStringExplicit& text) { LLView* child = getChildView(id, true, FALSE); if (child) { return child->setToolTipArg(key, text); } return FALSE; } void LLPanel::childSetMinValue(const std::string& id, LLSD min_value) { LLUICtrl* child = getChild(id, true); if (child) { child->setMinValue(min_value); } } void LLPanel::childSetMaxValue(const std::string& id, LLSD max_value) { LLUICtrl* child = getChild(id, true); if (child) { child->setMaxValue(max_value); } } void LLPanel::childShowTab(const std::string& id, const std::string& tabname, bool visible) { LLTabContainer* child = getChild(id); if (child) { child->selectTabByName(tabname); } } LLPanel *LLPanel::childGetVisibleTab(const std::string& id) const { LLTabContainer* child = getChild(id); if (child) { return child->getCurrentPanel(); } return NULL; } void LLPanel::childSetTabChangeCallback(const std::string& id, const std::string& tabname, void (*on_tab_clicked)(void*, bool), void *userdata) { LLTabContainer* child = getChild(id); if (child) { LLPanel *panel = child->getPanelByName(tabname); if (panel) { child->setTabChangeCallback(panel, on_tab_clicked); child->setTabUserData(panel, userdata); } } } void LLPanel::childSetKeystrokeCallback(const std::string& id, void (*keystroke_callback)(LLLineEditor* caller, void* user_data), void *user_data) { LLLineEditor* child = getChild(id); if (child) { child->setKeystrokeCallback(keystroke_callback); if (user_data) { child->setCallbackUserData(user_data); } } } void LLPanel::childSetPrevalidate(const std::string& id, BOOL (*func)(const LLWString &) ) { LLLineEditor* child = getChild(id); if (child) { child->setPrevalidate(func); } } void LLPanel::childSetWrappedText(const std::string& id, const std::string& text, bool visible) { LLTextBox* child = getChild(id); if (child) { child->setVisible(visible); child->setWrappedText(text); } } void LLPanel::childSetAction(const std::string& id, void(*function)(void*), void* value) { LLButton* button = getChild(id); if (button) { button->setClickedCallback(function, value); } } void LLPanel::childSetActionTextbox(const std::string& id, void(*function)(void*)) { LLTextBox* textbox = getChild(id); if (textbox) { textbox->setClickedCallback(function); } } void LLPanel::childSetControlName(const std::string& id, const std::string& control_name) { LLView* view = getChild(id); if (view) { view->setControlName(control_name, NULL); } } //virtual LLView* LLPanel::getChildView(const std::string& name, BOOL recurse, BOOL create_if_missing) const { // just get child, don't try to create a dummy one LLView* view = LLUICtrl::getChildView(name, recurse, FALSE); if (!view && !recurse) { childNotFound(name); } if (!view && create_if_missing) { view = createDummyWidget(name); } return view; } void LLPanel::childNotFound(const std::string& id) const { if (mExpectedMembers.find(id) == mExpectedMembers.end()) { mNewExpectedMembers.insert(id); } } void LLPanel::childDisplayNotFound() { if (mNewExpectedMembers.empty()) { return; } std::string msg; expected_members_list_t::iterator itor; for (itor=mNewExpectedMembers.begin(); itor!=mNewExpectedMembers.end(); ++itor) { msg.append(*itor); msg.append("\n"); mExpectedMembers.insert(*itor); } mNewExpectedMembers.clear(); LLStringUtil::format_map_t args; args["[CONTROLS]"] = msg; LLAlertDialog::showXml("FloaterNotFound", args); } void LLPanel::storeRectControl() { if( !mRectControl.empty() ) { LLUI::sConfigGroup->setRect( mRectControl, getRect() ); } } // // LLLayoutStack // struct LLLayoutStack::LLEmbeddedPanel { LLEmbeddedPanel(LLPanel* panelp, eLayoutOrientation orientation, S32 min_width, S32 min_height, BOOL auto_resize, BOOL user_resize) : mPanel(panelp), mMinWidth(min_width), mMinHeight(min_height), mAutoResize(auto_resize), mUserResize(user_resize), mOrientation(orientation), mVisibleAmt(1.f) // default to fully visible { LLResizeBar::Side side = (orientation == HORIZONTAL) ? LLResizeBar::RIGHT : LLResizeBar::BOTTOM; LLRect resize_bar_rect = panelp->getRect(); S32 min_dim; if (orientation == HORIZONTAL) { min_dim = mMinHeight; } else { min_dim = mMinWidth; } mResizeBar = new LLResizeBar(std::string("resizer"), mPanel, LLRect(), min_dim, S32_MAX, side); mResizeBar->setEnableSnapping(FALSE); // panels initialized as hidden should not start out partially visible if (!mPanel->getVisible()) { mVisibleAmt = 0.f; } } ~LLEmbeddedPanel() { // probably not necessary, but... delete mResizeBar; mResizeBar = NULL; } LLPanel* mPanel; S32 mMinWidth; S32 mMinHeight; BOOL mAutoResize; BOOL mUserResize; LLResizeBar* mResizeBar; eLayoutOrientation mOrientation; F32 mVisibleAmt; }; static LLRegisterWidget r2("layout_stack"); LLLayoutStack::LLLayoutStack(eLayoutOrientation orientation) : mOrientation(orientation), mMinWidth(0), mMinHeight(0), mPanelSpacing(RESIZE_BAR_HEIGHT) { } LLLayoutStack::~LLLayoutStack() { std::for_each(mPanels.begin(), mPanels.end(), DeletePointer()); } void LLLayoutStack::draw() { updateLayout(); { e_panel_list_t::iterator panel_it; for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { // clip to layout rectangle, not bounding rectangle LLRect clip_rect = (*panel_it)->mPanel->getRect(); // scale clipping rectangle by visible amount if (mOrientation == HORIZONTAL) { clip_rect.mRight = clip_rect.mLeft + llround((F32)clip_rect.getWidth() * (*panel_it)->mVisibleAmt); } else { clip_rect.mBottom = clip_rect.mTop - llround((F32)clip_rect.getHeight() * (*panel_it)->mVisibleAmt); } LLPanel* panelp = (*panel_it)->mPanel; LLLocalClipRect clip(clip_rect); // only force drawing invisible children if visible amount is non-zero drawChild(panelp, 0, 0, !clip_rect.isNull()); } } } void LLLayoutStack::removeCtrl(LLUICtrl* ctrl) { LLEmbeddedPanel* embedded_panelp = findEmbeddedPanel((LLPanel*)ctrl); if (embedded_panelp) { mPanels.erase(std::find(mPanels.begin(), mPanels.end(), embedded_panelp)); delete embedded_panelp; } // need to update resizebars calcMinExtents(); LLView::removeCtrl(ctrl); } LLXMLNodePtr LLLayoutStack::getXML(bool save_children) const { LLXMLNodePtr node = LLView::getXML(); return node; } //static LLView* LLLayoutStack::fromXML(LLXMLNodePtr node, LLView *parent, LLUICtrlFactory *factory) { std::string orientation_string("vertical"); node->getAttributeString("orientation", orientation_string); eLayoutOrientation orientation = VERTICAL; if (orientation_string == "horizontal") { orientation = HORIZONTAL; } else if (orientation_string == "vertical") { orientation = VERTICAL; } else { llwarns << "Unknown orientation " << orientation_string << ", using vertical" << llendl; } LLLayoutStack* layout_stackp = new LLLayoutStack(orientation); node->getAttributeS32("border_size", layout_stackp->mPanelSpacing); // don't allow negative spacing values layout_stackp->mPanelSpacing = llmax(layout_stackp->mPanelSpacing, 0); std::string name("stack"); node->getAttributeString("name", name); layout_stackp->setName(name); layout_stackp->initFromXML(node, parent); LLXMLNodePtr child; for (child = node->getFirstChild(); child.notNull(); child = child->getNextSibling()) { S32 min_width = 0; S32 min_height = 0; BOOL auto_resize = TRUE; child->getAttributeS32("min_width", min_width); child->getAttributeS32("min_height", min_height); child->getAttributeBOOL("auto_resize", auto_resize); if (child->hasName("layout_panel")) { BOOL user_resize = TRUE; child->getAttributeBOOL("user_resize", user_resize); LLPanel* panelp = (LLPanel*)LLPanel::fromXML(child, layout_stackp, factory); if (panelp) { panelp->setFollowsNone(); layout_stackp->addPanel(panelp, min_width, min_height, auto_resize, user_resize); } } else { BOOL user_resize = FALSE; child->getAttributeBOOL("user_resize", user_resize); LLPanel* panelp = new LLPanel(std::string("auto_panel")); LLView* new_child = factory->createWidget(panelp, child); if (new_child) { // put child in new embedded panel layout_stackp->addPanel(panelp, min_width, min_height, auto_resize, user_resize); // resize panel to contain widget and move widget to be contained in panel panelp->setRect(new_child->getRect()); new_child->setOrigin(0, 0); } else { panelp->die(); } } } layout_stackp->updateLayout(); return layout_stackp; } S32 LLLayoutStack::getDefaultHeight(S32 cur_height) { // if we are spanning our children (crude upward propagation of size) // then don't enforce our size on our children if (mOrientation == HORIZONTAL) { cur_height = llmax(mMinHeight, getRect().getHeight()); } return cur_height; } S32 LLLayoutStack::getDefaultWidth(S32 cur_width) { // if we are spanning our children (crude upward propagation of size) // then don't enforce our size on our children if (mOrientation == VERTICAL) { cur_width = llmax(mMinWidth, getRect().getWidth()); } return cur_width; } void LLLayoutStack::addPanel(LLPanel* panel, S32 min_width, S32 min_height, BOOL auto_resize, BOOL user_resize, S32 index) { LLEmbeddedPanel* embedded_panel = new LLEmbeddedPanel(panel, mOrientation, min_width, min_height, auto_resize, user_resize); mPanels.insert(mPanels.begin() + llclamp(index, 0, (S32)mPanels.size()), embedded_panel); addChild(panel); addChild(embedded_panel->mResizeBar); // bring all resize bars to the front so that they are clickable even over the panels // with a bit of overlap for (e_panel_list_t::iterator panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { LLResizeBar* resize_barp = (*panel_it)->mResizeBar; sendChildToFront(resize_barp); } } void LLLayoutStack::removePanel(LLPanel* panel) { removeChild(panel); } void LLLayoutStack::updateLayout(BOOL force_resize) { calcMinExtents(); // calculate current extents S32 total_width = 0; S32 total_height = 0; const F32 ANIM_OPEN_TIME = 0.02f; const F32 ANIM_CLOSE_TIME = 0.03f; e_panel_list_t::iterator panel_it; for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { LLPanel* panelp = (*panel_it)->mPanel; if (panelp->getVisible()) { (*panel_it)->mVisibleAmt = lerp((*panel_it)->mVisibleAmt, 1.f, LLCriticalDamp::getInterpolant(ANIM_OPEN_TIME)); if ((*panel_it)->mVisibleAmt > 0.99f) { (*panel_it)->mVisibleAmt = 1.f; } } else // not visible { (*panel_it)->mVisibleAmt = lerp((*panel_it)->mVisibleAmt, 0.f, LLCriticalDamp::getInterpolant(ANIM_CLOSE_TIME)); if ((*panel_it)->mVisibleAmt < 0.001f) { (*panel_it)->mVisibleAmt = 0.f; } } if (mOrientation == HORIZONTAL) { // enforce minimize size constraint by default if (panelp->getRect().getWidth() < (*panel_it)->mMinWidth) { panelp->reshape((*panel_it)->mMinWidth, panelp->getRect().getHeight()); } total_width += llround(panelp->getRect().getWidth() * (*panel_it)->mVisibleAmt); // want n-1 panel gaps for n panels if (panel_it != mPanels.begin()) { total_width += mPanelSpacing; } } else //VERTICAL { // enforce minimize size constraint by default if (panelp->getRect().getHeight() < (*panel_it)->mMinHeight) { panelp->reshape(panelp->getRect().getWidth(), (*panel_it)->mMinHeight); } total_height += llround(panelp->getRect().getHeight() * (*panel_it)->mVisibleAmt); if (panel_it != mPanels.begin()) { total_height += mPanelSpacing; } } } S32 num_resizable_panels = 0; S32 shrink_headroom_available = 0; S32 shrink_headroom_total = 0; for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { // panels that are not fully visible do not count towards shrink headroom if ((*panel_it)->mVisibleAmt < 1.f) { continue; } // if currently resizing a panel or the panel is flagged as not automatically resizing // only track total available headroom, but don't use it for automatic resize logic if ((*panel_it)->mResizeBar->hasMouseCapture() || (!(*panel_it)->mAutoResize && !force_resize)) { if (mOrientation == HORIZONTAL) { shrink_headroom_total += (*panel_it)->mPanel->getRect().getWidth() - (*panel_it)->mMinWidth; } else //VERTICAL { shrink_headroom_total += (*panel_it)->mPanel->getRect().getHeight() - (*panel_it)->mMinHeight; } } else { num_resizable_panels++; if (mOrientation == HORIZONTAL) { shrink_headroom_available += (*panel_it)->mPanel->getRect().getWidth() - (*panel_it)->mMinWidth; shrink_headroom_total += (*panel_it)->mPanel->getRect().getWidth() - (*panel_it)->mMinWidth; } else //VERTICAL { shrink_headroom_available += (*panel_it)->mPanel->getRect().getHeight() - (*panel_it)->mMinHeight; shrink_headroom_total += (*panel_it)->mPanel->getRect().getHeight() - (*panel_it)->mMinHeight; } } } // calculate how many pixels need to be distributed among layout panels // positive means panels need to grow, negative means shrink S32 pixels_to_distribute; if (mOrientation == HORIZONTAL) { pixels_to_distribute = getRect().getWidth() - total_width; } else //VERTICAL { pixels_to_distribute = getRect().getHeight() - total_height; } // now we distribute the pixels... S32 cur_x = 0; S32 cur_y = getRect().getHeight(); for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { LLPanel* panelp = (*panel_it)->mPanel; S32 cur_width = panelp->getRect().getWidth(); S32 cur_height = panelp->getRect().getHeight(); S32 new_width = llmax((*panel_it)->mMinWidth, cur_width); S32 new_height = llmax((*panel_it)->mMinHeight, cur_height); S32 delta_size = 0; // if panel can automatically resize (not animating, and resize flag set)... if ((*panel_it)->mVisibleAmt == 1.f && (force_resize || (*panel_it)->mAutoResize) && !(*panel_it)->mResizeBar->hasMouseCapture()) { if (mOrientation == HORIZONTAL) { // if we're shrinking if (pixels_to_distribute < 0) { // shrink proportionally to amount over minimum // so we can do this in one pass delta_size = (shrink_headroom_available > 0) ? llround((F32)pixels_to_distribute * ((F32)(cur_width - (*panel_it)->mMinWidth) / (F32)shrink_headroom_available)) : 0; shrink_headroom_available -= (cur_width - (*panel_it)->mMinWidth); } else { // grow all elements equally delta_size = llround((F32)pixels_to_distribute / (F32)num_resizable_panels); num_resizable_panels--; } pixels_to_distribute -= delta_size; new_width = llmax((*panel_it)->mMinWidth, cur_width + delta_size); } else { new_width = getDefaultWidth(new_width); } if (mOrientation == VERTICAL) { if (pixels_to_distribute < 0) { // shrink proportionally to amount over minimum // so we can do this in one pass delta_size = (shrink_headroom_available > 0) ? llround((F32)pixels_to_distribute * ((F32)(cur_height - (*panel_it)->mMinHeight) / (F32)shrink_headroom_available)) : 0; shrink_headroom_available -= (cur_height - (*panel_it)->mMinHeight); } else { delta_size = llround((F32)pixels_to_distribute / (F32)num_resizable_panels); num_resizable_panels--; } pixels_to_distribute -= delta_size; new_height = llmax((*panel_it)->mMinHeight, cur_height + delta_size); } else { new_height = getDefaultHeight(new_height); } } else { if (mOrientation == HORIZONTAL) { new_height = getDefaultHeight(new_height); } else // VERTICAL { new_width = getDefaultWidth(new_width); } } // adjust running headroom count based on new sizes shrink_headroom_total += delta_size; panelp->reshape(new_width, new_height); panelp->setOrigin(cur_x, cur_y - new_height); LLRect panel_rect = panelp->getRect(); LLRect resize_bar_rect = panel_rect; if (mOrientation == HORIZONTAL) { resize_bar_rect.mLeft = panel_rect.mRight - RESIZE_BAR_OVERLAP; resize_bar_rect.mRight = panel_rect.mRight + mPanelSpacing + RESIZE_BAR_OVERLAP; } else { resize_bar_rect.mTop = panel_rect.mBottom + RESIZE_BAR_OVERLAP; resize_bar_rect.mBottom = panel_rect.mBottom - mPanelSpacing - RESIZE_BAR_OVERLAP; } (*panel_it)->mResizeBar->setRect(resize_bar_rect); if (mOrientation == HORIZONTAL) { cur_x += llround(new_width * (*panel_it)->mVisibleAmt) + mPanelSpacing; } else //VERTICAL { cur_y -= llround(new_height * (*panel_it)->mVisibleAmt) + mPanelSpacing; } } // update resize bars with new limits LLResizeBar* last_resize_bar = NULL; for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { LLPanel* panelp = (*panel_it)->mPanel; if (mOrientation == HORIZONTAL) { (*panel_it)->mResizeBar->setResizeLimits( (*panel_it)->mMinWidth, (*panel_it)->mMinWidth + shrink_headroom_total); } else //VERTICAL { (*panel_it)->mResizeBar->setResizeLimits( (*panel_it)->mMinHeight, (*panel_it)->mMinHeight + shrink_headroom_total); } // toggle resize bars based on panel visibility, resizability, etc BOOL resize_bar_enabled = panelp->getVisible() && (*panel_it)->mUserResize; (*panel_it)->mResizeBar->setVisible(resize_bar_enabled); if (resize_bar_enabled) { last_resize_bar = (*panel_it)->mResizeBar; } } // hide last resize bar as there is nothing past it // resize bars need to be in between two resizable panels if (last_resize_bar) { last_resize_bar->setVisible(FALSE); } // not enough room to fit existing contents if (force_resize == FALSE // layout did not complete by reaching target position && ((mOrientation == VERTICAL && cur_y != -mPanelSpacing) || (mOrientation == HORIZONTAL && cur_x != getRect().getWidth() + mPanelSpacing))) { // do another layout pass with all stacked elements contributing // even those that don't usually resize llassert_always(force_resize == FALSE); updateLayout(TRUE); } } // end LLLayoutStack::updateLayout LLLayoutStack::LLEmbeddedPanel* LLLayoutStack::findEmbeddedPanel(LLPanel* panelp) const { e_panel_list_t::const_iterator panel_it; for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { if ((*panel_it)->mPanel == panelp) { return *panel_it; } } return NULL; } void LLLayoutStack::calcMinExtents() { mMinWidth = 0; mMinHeight = 0; e_panel_list_t::iterator panel_it; for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it) { if (mOrientation == HORIZONTAL) { mMinHeight = llmax( mMinHeight, (*panel_it)->mMinHeight); mMinWidth += (*panel_it)->mMinWidth; if (panel_it != mPanels.begin()) { mMinWidth += mPanelSpacing; } } else //VERTICAL { mMinWidth = llmax( mMinWidth, (*panel_it)->mMinWidth); mMinHeight += (*panel_it)->mMinHeight; if (panel_it != mPanels.begin()) { mMinHeight += mPanelSpacing; } } } }