/** * @file llchicletbar.cpp * @brief LLChicletBar class implementation * * $LicenseInfo:firstyear=2011&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2011, 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 "llviewerprecompiledheaders.h" // must be first include #include "llchicletbar.h" // library includes #include "llfloaterreg.h" #include "lllayoutstack.h" // newview includes #include "llchiclet.h" #include "llimfloater.h" // for LLIMFloater #include "llpaneltopinfobar.h" #include "llsyswellwindow.h" namespace { const std::string& PANEL_CHICLET_NAME = "chiclet_list_panel"; S32 get_curr_width(LLUICtrl* ctrl) { S32 cur_width = 0; if ( ctrl && ctrl->getVisible() ) { cur_width = ctrl->getRect().getWidth(); } return cur_width; } } LLChicletBar::LLChicletBar(const LLSD&) : mChicletPanel(NULL), mToolbarStack(NULL) { buildFromFile("panel_chiclet_bar.xml"); } LLChicletBar::~LLChicletBar() { } LLIMChiclet* LLChicletBar::createIMChiclet(const LLUUID& session_id) { LLIMChiclet::EType im_chiclet_type = LLIMChiclet::getIMSessionType(session_id); switch (im_chiclet_type) { case LLIMChiclet::TYPE_IM: return getChicletPanel()->createChiclet(session_id); case LLIMChiclet::TYPE_GROUP: return getChicletPanel()->createChiclet(session_id); case LLIMChiclet::TYPE_AD_HOC: return getChicletPanel()->createChiclet(session_id); case LLIMChiclet::TYPE_UNKNOWN: break; } return NULL; } //virtual void LLChicletBar::sessionAdded(const LLUUID& session_id, const std::string& name, const LLUUID& other_participant_id) { if (!getChicletPanel()) return; LLIMModel::LLIMSession* session = LLIMModel::getInstance()->findIMSession(session_id); if (!session) return; // no need to spawn chiclets for participants in P2P calls called through Avaline if (session->isP2P() && session->isOtherParticipantAvaline()) return; // Do not spawn chiclet when using the new multitab conversation UI if (LLIMConversation::isChatMultiTab()) { LLIMConversation::addToHost(session_id); return; } if (getChicletPanel()->findChiclet(session_id)) return; LLIMChiclet* chiclet = createIMChiclet(session_id); if(chiclet) { chiclet->setIMSessionName(name); chiclet->setOtherParticipantId(other_participant_id); LLIMFloater::onIMChicletCreated(session_id); } else { llwarns << "Could not create chiclet" << llendl; } } //virtual void LLChicletBar::sessionRemoved(const LLUUID& session_id) { if(getChicletPanel()) { // IM floater should be closed when session removed and associated chiclet closed LLIMFloater* im_floater = LLFloaterReg::findTypedInstance("impanel", session_id); if (im_floater != NULL && !im_floater->getStartConferenceInSameFloater()) { // Close the IM floater only if we are not planning to close the P2P chat // and start a new conference in the same floater. im_floater->closeFloater(); } getChicletPanel()->removeChiclet(session_id); } } void LLChicletBar::sessionIDUpdated(const LLUUID& old_session_id, const LLUUID& new_session_id) { //this is only needed in case of outgoing ad-hoc/group chat sessions LLChicletPanel* chiclet_panel = getChicletPanel(); if (chiclet_panel) { //it should be ad-hoc im chiclet or group im chiclet LLChiclet* chiclet = chiclet_panel->findChiclet(old_session_id); if (chiclet) chiclet->setSessionId(new_session_id); } } S32 LLChicletBar::getTotalUnreadIMCount() { return getChicletPanel()->getTotalUnreadIMCount(); } BOOL LLChicletBar::postBuild() { mToolbarStack = getChild("toolbar_stack"); mChicletPanel = getChild("chiclet_list"); showWellButton("im_well", !LLIMWellWindow::getInstance()->isWindowEmpty()); showWellButton("notification_well", !LLNotificationWellWindow::getInstance()->isWindowEmpty()); LLPanelTopInfoBar::instance().setResizeCallback(boost::bind(&LLChicletBar::fitWithTopInfoBar, this)); LLPanelTopInfoBar::instance().setVisibleCallback(boost::bind(&LLChicletBar::fitWithTopInfoBar, this)); return TRUE; } void LLChicletBar::showWellButton(const std::string& well_name, bool visible) { LLView * panel = findChild(well_name + "_panel"); if (!panel) return; panel->setVisible(visible); } void LLChicletBar::log(LLView* panel, const std::string& descr) { if (NULL == panel) return; LLView* layout = panel->getParent(); LL_DEBUGS("Chiclet Bar Rects") << descr << ": " << "panel: " << panel->getName() << ", rect: " << panel->getRect() << " layout: " << layout->getName() << ", rect: " << layout->getRect() << LL_ENDL; } void LLChicletBar::reshape(S32 width, S32 height, BOOL called_from_parent) { static S32 debug_calling_number = 0; lldebugs << "**************************************** " << ++debug_calling_number << llendl; S32 current_width = getRect().getWidth(); S32 delta_width = width - current_width; lldebugs << "Reshaping: " << ", width: " << width << ", cur width: " << current_width << ", delta_width: " << delta_width << ", called_from_parent: " << called_from_parent << llendl; if (mChicletPanel) log(mChicletPanel, "before"); // Difference between chiclet bar width required to fit its children and the actual width. (see EXT-991) // Positive value means that chiclet bar is not wide enough. // Negative value means that there is free space. static S32 extra_shrink_width = 0; bool should_be_reshaped = true; if (mChicletPanel && mToolbarStack) { // Firstly, update layout stack to ensure we deal with correct panel sizes. { // Force the updating of layout to reset panels collapse factor. mToolbarStack->updateLayout(); } // chiclet bar is narrowed if (delta_width < 0) { if (extra_shrink_width > 0) // not enough space { extra_shrink_width += llabs(delta_width); should_be_reshaped = false; } else { extra_shrink_width = processWidthDecreased(delta_width); // increase new width to extra_shrink_width value to not reshape less than chiclet bar minimum width += extra_shrink_width; } } // chiclet bar is widened else { if (extra_shrink_width > delta_width) { // Still not enough space. // Only subtract the delta from the required delta and don't reshape. extra_shrink_width -= delta_width; should_be_reshaped = false; } else if (extra_shrink_width > 0) { // If we have some extra shrink width let's reduce delta_width & width delta_width -= extra_shrink_width; width -= extra_shrink_width; extra_shrink_width = 0; } } } if (should_be_reshaped) { lldebugs << "Reshape all children with width: " << width << llendl; LLPanel::reshape(width, height, called_from_parent); } if (mChicletPanel) log(mChicletPanel, "after"); } S32 LLChicletBar::processWidthDecreased(S32 delta_width) { bool still_should_be_processed = true; const S32 chiclet_panel_shrink_headroom = getChicletPanelShrinkHeadroom(); // Decreasing width of chiclet panel. if (chiclet_panel_shrink_headroom > 0) { // we have some space to decrease chiclet panel S32 shrink_by = llmin(-delta_width, chiclet_panel_shrink_headroom); lldebugs << "delta_width: " << delta_width << ", panel_delta_min: " << chiclet_panel_shrink_headroom << ", shrink_by: " << shrink_by << llendl; // is chiclet panel wide enough to process resizing? delta_width += chiclet_panel_shrink_headroom; still_should_be_processed = delta_width < 0; lldebugs << "Shrinking chiclet panel by " << shrink_by << " px" << llendl; mChicletPanel->getParent()->reshape(mChicletPanel->getParent()->getRect().getWidth() - shrink_by, mChicletPanel->getParent()->getRect().getHeight()); log(mChicletPanel, "after processing panel decreasing via chiclet panel"); lldebugs << "RS_CHICLET_PANEL" << ", delta_width: " << delta_width << llendl; } S32 extra_shrink_width = 0; if (still_should_be_processed) { extra_shrink_width = -delta_width; llwarns << "There is no enough width to reshape all children: " << extra_shrink_width << llendl; } return extra_shrink_width; } S32 LLChicletBar::getChicletPanelShrinkHeadroom() const { static const S32 min_width = mChicletPanel->getMinWidth(); const S32 cur_width = mChicletPanel->getParent()->getRect().getWidth(); S32 shrink_headroom = cur_width - min_width; llassert(shrink_headroom >= 0); // the panel cannot get narrower than the minimum return shrink_headroom; } void LLChicletBar::fitWithTopInfoBar() { LLPanelTopInfoBar& top_info_bar = LLPanelTopInfoBar::instance(); LLRect rect = getRect(); S32 width = rect.getWidth(); if (top_info_bar.getVisible()) { S32 delta = top_info_bar.calcScreenRect().mRight - calcScreenRect().mLeft; if (delta < 0 && rect.mLeft < llabs(delta)) delta = -rect.mLeft; rect.setLeftTopAndSize(rect.mLeft + delta, rect.mTop, rect.getWidth(), rect.getHeight()); width = rect.getWidth() - delta; } else { LLView* parent = getParent(); if (parent) { LLRect parent_rect = parent->getRect(); rect.setLeftTopAndSize(0, rect.mTop, rect.getWidth(), rect.getHeight()); width = parent_rect.getWidth(); } } setRect(rect); LLPanel::reshape(width, rect.getHeight(), false); }