/** * @file llviewertexturelist.cpp * @brief Object for managing the list of images within a region * * $LicenseInfo:firstyear=2000&license=viewerlgpl$ * 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 "llviewerprecompiledheaders.h" #include #include "llviewertexturelist.h" #include "llgl.h" // fot gathering stats from GL #include "llimagegl.h" #include "llimagebmp.h" #include "llimagej2c.h" #include "llimagetga.h" #include "llimagejpeg.h" #include "llimagepng.h" #include "llimageworker.h" #include "llsdserialize.h" #include "llsys.h" #include "llfilesystem.h" #include "llxmltree.h" #include "message.h" #include "lltexturecache.h" #include "lltexturefetch.h" #include "llviewercontrol.h" #include "llviewertexture.h" #include "llviewermedia.h" #include "llviewerregion.h" #include "llviewerstats.h" #include "pipeline.h" #include "llappviewer.h" #include "llxuiparser.h" #include "lltracerecording.h" #include "llviewerdisplay.h" #include "llviewerwindow.h" #include "llprogressview.h" //////////////////////////////////////////////////////////////////////////// void (*LLViewerTextureList::sUUIDCallback)(void **, const LLUUID&) = NULL; S32 LLViewerTextureList::sNumImages = 0; LLViewerTextureList gTextureList; ETexListType get_element_type(S32 priority) { return (priority == LLViewerFetchedTexture::BOOST_ICON) ? TEX_LIST_SCALE : TEX_LIST_STANDARD; } /////////////////////////////////////////////////////////////////////////////// LLTextureKey::LLTextureKey() : textureId(LLUUID::null), textureType(TEX_LIST_STANDARD) { } LLTextureKey::LLTextureKey(LLUUID id, ETexListType tex_type) : textureId(id), textureType(tex_type) { } /////////////////////////////////////////////////////////////////////////////// LLViewerTextureList::LLViewerTextureList() : mForceResetTextureStats(FALSE), mMaxResidentTexMemInMegaBytes(0), mMaxTotalTextureMemInMegaBytes(0), mInitialized(FALSE) { } void LLViewerTextureList::init() { mInitialized = TRUE ; sNumImages = 0; mMaxResidentTexMemInMegaBytes = (U32Bytes)0; mMaxTotalTextureMemInMegaBytes = (U32Bytes)0; // Update how much texture RAM we're allowed to use. updateMaxResidentTexMem(S32Megabytes(0)); // 0 = use current doPreloadImages(); } void LLViewerTextureList::doPreloadImages() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; LL_DEBUGS("ViewerImages") << "Preloading images..." << LL_ENDL; llassert_always(mInitialized) ; llassert_always(mImageList.empty()) ; llassert_always(mUUIDMap.empty()) ; // Set the "missing asset" image LLViewerFetchedTexture::sMissingAssetImagep = LLViewerTextureManager::getFetchedTextureFromFile("missing_asset.tga", FTT_LOCAL_FILE, MIPMAP_NO, LLViewerFetchedTexture::BOOST_UI); // Set the "white" image LLViewerFetchedTexture::sWhiteImagep = LLViewerTextureManager::getFetchedTextureFromFile("white.tga", FTT_LOCAL_FILE, MIPMAP_NO, LLViewerFetchedTexture::BOOST_UI); LLTexUnit::sWhiteTexture = LLViewerFetchedTexture::sWhiteImagep->getTexName(); LLUIImageList* image_list = LLUIImageList::getInstance(); // Set the default flat normal map LLViewerFetchedTexture::sFlatNormalImagep = LLViewerTextureManager::getFetchedTextureFromFile("flatnormal.tga", FTT_LOCAL_FILE, MIPMAP_NO, LLViewerFetchedTexture::BOOST_BUMP); image_list->initFromFile(); // turn off clamping and bilinear filtering for uv picking images //LLViewerFetchedTexture* uv_test = preloadUIImage("uv_test1.tga", LLUUID::null, FALSE); //uv_test->setClamp(FALSE, FALSE); //uv_test->setMipFilterNearest(TRUE, TRUE); //uv_test = preloadUIImage("uv_test2.tga", LLUUID::null, FALSE); //uv_test->setClamp(FALSE, FALSE); //uv_test->setMipFilterNearest(TRUE, TRUE); // prefetch specific UUIDs LLViewerTextureManager::getFetchedTexture(IMG_SHOT); LLViewerTextureManager::getFetchedTexture(IMG_SMOKE_POOF); LLViewerFetchedTexture* image = LLViewerTextureManager::getFetchedTextureFromFile("silhouette.j2c", FTT_LOCAL_FILE, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI); if (image) { image->setAddressMode(LLTexUnit::TAM_WRAP); mImagePreloads.insert(image); } image = LLViewerTextureManager::getFetchedTextureFromFile("world/NoEntryLines.png", FTT_LOCAL_FILE, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI); if (image) { image->setAddressMode(LLTexUnit::TAM_WRAP); mImagePreloads.insert(image); } image = LLViewerTextureManager::getFetchedTextureFromFile("world/NoEntryPassLines.png", FTT_LOCAL_FILE, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI); if (image) { image->setAddressMode(LLTexUnit::TAM_WRAP); mImagePreloads.insert(image); } image = LLViewerTextureManager::getFetchedTexture(DEFAULT_WATER_NORMAL, FTT_DEFAULT, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI); if (image) { image->setAddressMode(LLTexUnit::TAM_WRAP); mImagePreloads.insert(image); } image = LLViewerTextureManager::getFetchedTextureFromFile("transparent.j2c", FTT_LOCAL_FILE, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI, LLViewerTexture::FETCHED_TEXTURE, 0, 0, IMG_TRANSPARENT); if (image) { image->setAddressMode(LLTexUnit::TAM_WRAP); mImagePreloads.insert(image); } image = LLViewerTextureManager::getFetchedTextureFromFile("alpha_gradient.tga", FTT_LOCAL_FILE, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI, LLViewerTexture::FETCHED_TEXTURE, GL_ALPHA8, GL_ALPHA, IMG_ALPHA_GRAD); if (image) { image->setAddressMode(LLTexUnit::TAM_CLAMP); mImagePreloads.insert(image); } image = LLViewerTextureManager::getFetchedTextureFromFile("alpha_gradient_2d.j2c", FTT_LOCAL_FILE, MIPMAP_YES, LLViewerFetchedTexture::BOOST_UI, LLViewerTexture::FETCHED_TEXTURE, GL_ALPHA8, GL_ALPHA, IMG_ALPHA_GRAD_2D); if (image) { image->setAddressMode(LLTexUnit::TAM_CLAMP); mImagePreloads.insert(image); } LLPointer img_blak_square_tex(new LLImageRaw(2, 2, 3)); memset(img_blak_square_tex->getData(), 0, img_blak_square_tex->getDataSize()); LLPointer img_blak_square(new LLViewerFetchedTexture(img_blak_square_tex, FTT_DEFAULT, FALSE)); gBlackSquareID = img_blak_square->getID(); img_blak_square->setUnremovable(TRUE); addImage(img_blak_square, TEX_LIST_STANDARD); } static std::string get_texture_list_name() { return gDirUtilp->getExpandedFilename(LL_PATH_CACHE, "texture_list_" + gSavedSettings.getString("LoginLocation") + "." + gDirUtilp->getUserName() + ".xml"); } void LLViewerTextureList::doPrefetchImages() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; gTextureTimer.start(); gTextureTimer.pause(); if (LLAppViewer::instance()->getPurgeCache()) { // cache was purged, no point return; } // Pre-fetch textures from last logout LLSD imagelist; std::string filename = get_texture_list_name(); llifstream file; file.open(filename.c_str()); if (file.is_open()) { if ( ! LLSDSerialize::fromXML(imagelist, file) ) { file.close(); LL_WARNS() << "XML parse error reading texture list '" << filename << "'" << LL_ENDL; LL_WARNS() << "Removing invalid texture list '" << filename << "'" << LL_ENDL; LLFile::remove(filename); return; } file.close(); } S32 texture_count = 0; for (LLSD::array_iterator iter = imagelist.beginArray(); iter != imagelist.endArray(); ++iter) { LLSD imagesd = *iter; LLUUID uuid = imagesd["uuid"]; S32 pixel_area = imagesd["area"]; S32 texture_type = imagesd["type"]; if(LLViewerTexture::FETCHED_TEXTURE == texture_type || LLViewerTexture::LOD_TEXTURE == texture_type) { LLViewerFetchedTexture* image = LLViewerTextureManager::getFetchedTexture(uuid, FTT_DEFAULT, MIPMAP_TRUE, LLGLTexture::BOOST_NONE, texture_type); if (image) { texture_count += 1; image->addTextureStats((F32)pixel_area); } } } LL_DEBUGS() << "fetched " << texture_count << " images from " << filename << LL_ENDL; } /////////////////////////////////////////////////////////////////////////////// LLViewerTextureList::~LLViewerTextureList() { } void LLViewerTextureList::shutdown() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // clear out preloads mImagePreloads.clear(); // Write out list of currently loaded textures for precaching on startup typedef std::set > image_area_list_t; image_area_list_t image_area_list; for (image_priority_list_t::iterator iter = mImageList.begin(); iter != mImageList.end(); ++iter) { LLViewerFetchedTexture* image = *iter; if (!image->hasGLTexture() || !image->getUseDiscard() || image->needsAux() || !image->getTargetHost().isInvalid() || !image->getUrl().empty() ) { continue; // avoid UI, baked, and other special images } if(!image->getBoundRecently()) { continue ; } S32 desired = image->getDesiredDiscardLevel(); if (desired >= 0 && desired < MAX_DISCARD_LEVEL) { S32 pixel_area = image->getWidth(desired) * image->getHeight(desired); image_area_list.insert(std::make_pair(pixel_area, image)); } } LLSD imagelist; const S32 max_count = 1000; S32 count = 0; S32 image_type ; for (image_area_list_t::reverse_iterator riter = image_area_list.rbegin(); riter != image_area_list.rend(); ++riter) { LLViewerFetchedTexture* image = riter->second; image_type = (S32)image->getType() ; imagelist[count]["area"] = riter->first; imagelist[count]["uuid"] = image->getID(); imagelist[count]["type"] = image_type; if (++count >= max_count) break; } if (count > 0 && !gDirUtilp->getExpandedFilename(LL_PATH_CACHE, "").empty()) { std::string filename = get_texture_list_name(); llofstream file; file.open(filename.c_str()); LL_DEBUGS() << "saving " << imagelist.size() << " image list entries" << LL_ENDL; LLSDSerialize::toPrettyXML(imagelist, file); } // // Clean up "loaded" callbacks. // mCallbackList.clear(); // Flush all of the references mLoadingStreamList.clear(); mCreateTextureList.clear(); mFastCacheList.clear(); mUUIDMap.clear(); mImageList.clear(); mInitialized = FALSE ; //prevent loading textures again. } void LLViewerTextureList::dump() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; LL_INFOS() << "LLViewerTextureList::dump()" << LL_ENDL; for (image_priority_list_t::iterator it = mImageList.begin(); it != mImageList.end(); ++it) { LLViewerFetchedTexture* image = *it; LL_INFOS() << "priority " << image->getDecodePriority() << " boost " << image->getBoostLevel() << " size " << image->getWidth() << "x" << image->getHeight() << " discard " << image->getDiscardLevel() << " desired " << image->getDesiredDiscardLevel() << " http://asset.siva.lindenlab.com/" << image->getID() << ".texture" << LL_ENDL; } } void LLViewerTextureList::destroyGL(BOOL save_state) { LLImageGL::destroyGL(save_state); } void LLViewerTextureList::restoreGL() { llassert_always(mInitialized) ; LLImageGL::restoreGL(); } /* Vertical tab container button image IDs Seem to not decode when running app in debug. const LLUUID BAD_IMG_ONE("1097dcb3-aef9-8152-f471-431d840ea89e"); const LLUUID BAD_IMG_TWO("bea77041-5835-1661-f298-47e2d32b7a70"); */ /////////////////////////////////////////////////////////////////////////////// LLViewerFetchedTexture* LLViewerTextureList::getImageFromFile(const std::string& filename, FTType f_type, BOOL usemipmaps, LLViewerTexture::EBoostLevel boost_priority, S8 texture_type, LLGLint internal_format, LLGLenum primary_format, const LLUUID& force_id) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if(!mInitialized) { return NULL ; } std::string full_path = gDirUtilp->findSkinnedFilename("textures", filename); if (full_path.empty()) { LL_WARNS() << "Failed to find local image file: " << filename << LL_ENDL; LLViewerTexture::EBoostLevel priority = LLGLTexture::BOOST_UI; return LLViewerTextureManager::getFetchedTexture(IMG_DEFAULT, FTT_DEFAULT, TRUE, priority); } std::string url = "file://" + full_path; return getImageFromUrl(url, f_type, usemipmaps, boost_priority, texture_type, internal_format, primary_format, force_id); } LLViewerFetchedTexture* LLViewerTextureList::getImageFromUrl(const std::string& url, FTType f_type, BOOL usemipmaps, LLViewerTexture::EBoostLevel boost_priority, S8 texture_type, LLGLint internal_format, LLGLenum primary_format, const LLUUID& force_id) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if(!mInitialized) { return NULL ; } // generate UUID based on hash of filename LLUUID new_id; if (force_id.notNull()) { new_id = force_id; } else { new_id.generate(url); } LLPointer imagep = findImage(new_id, get_element_type(boost_priority)); if (!imagep.isNull()) { LLViewerFetchedTexture *texture = imagep.get(); if (texture->getUrl().empty()) { LL_WARNS() << "Requested texture " << new_id << " already exists but does not have a URL" << LL_ENDL; } else if (texture->getUrl() != url) { // This is not an error as long as the images really match - // e.g. could be two avatars wearing the same outfit. LL_DEBUGS("Avatar") << "Requested texture " << new_id << " already exists with a different url, requested: " << url << " current: " << texture->getUrl() << LL_ENDL; } } if (imagep.isNull()) { switch(texture_type) { case LLViewerTexture::FETCHED_TEXTURE: imagep = new LLViewerFetchedTexture(url, f_type, new_id, usemipmaps); break ; case LLViewerTexture::LOD_TEXTURE: imagep = new LLViewerLODTexture(url, f_type, new_id, usemipmaps); break ; default: LL_ERRS() << "Invalid texture type " << texture_type << LL_ENDL ; } if (internal_format && primary_format) { imagep->setExplicitFormat(internal_format, primary_format); } addImage(imagep, get_element_type(boost_priority)); if (boost_priority != 0) { if (boost_priority == LLViewerFetchedTexture::BOOST_UI) { imagep->dontDiscard(); } if (boost_priority == LLViewerFetchedTexture::BOOST_ICON) { // Agent and group Icons are downloadable content, nothing manages // icon deletion yet, so they should not persist imagep->dontDiscard(); imagep->forceActive(); } imagep->setBoostLevel(boost_priority); } } imagep->setGLTextureCreated(true); return imagep; } LLViewerFetchedTexture* LLViewerTextureList::getImage(const LLUUID &image_id, FTType f_type, BOOL usemipmaps, LLViewerTexture::EBoostLevel boost_priority, S8 texture_type, LLGLint internal_format, LLGLenum primary_format, LLHost request_from_host) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if(!mInitialized) { return NULL ; } // Return the image with ID image_id // If the image is not found, creates new image and // enqueues a request for transmission if (image_id.isNull()) { return (LLViewerTextureManager::getFetchedTexture(IMG_DEFAULT, FTT_DEFAULT, TRUE, LLGLTexture::BOOST_UI)); } LLPointer imagep = findImage(image_id, get_element_type(boost_priority)); if (!imagep.isNull()) { if (boost_priority != LLViewerTexture::BOOST_ALM && imagep->getBoostLevel() == LLViewerTexture::BOOST_ALM) { // Workaround: we need BOOST_ALM texture for something, 'rise' to NONE imagep->setBoostLevel(LLViewerTexture::BOOST_NONE); } LLViewerFetchedTexture *texture = imagep.get(); if (request_from_host.isOk() && !texture->getTargetHost().isOk()) { LL_WARNS() << "Requested texture " << image_id << " already exists but does not have a host" << LL_ENDL; } else if (request_from_host.isOk() && texture->getTargetHost().isOk() && request_from_host != texture->getTargetHost()) { LL_WARNS() << "Requested texture " << image_id << " already exists with a different target host, requested: " << request_from_host << " current: " << texture->getTargetHost() << LL_ENDL; } if (f_type != FTT_DEFAULT && imagep->getFTType() != f_type) { LL_WARNS() << "FTType mismatch: requested " << f_type << " image has " << imagep->getFTType() << LL_ENDL; } } if (imagep.isNull()) { imagep = createImage(image_id, f_type, usemipmaps, boost_priority, texture_type, internal_format, primary_format, request_from_host) ; } imagep->setGLTextureCreated(true); return imagep; } //when this function is called, there is no such texture in the gTextureList with image_id. LLViewerFetchedTexture* LLViewerTextureList::createImage(const LLUUID &image_id, FTType f_type, BOOL usemipmaps, LLViewerTexture::EBoostLevel boost_priority, S8 texture_type, LLGLint internal_format, LLGLenum primary_format, LLHost request_from_host) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; static LLCachedControl fast_cache_fetching_enabled(gSavedSettings, "FastCacheFetchEnabled", true); LLPointer imagep ; switch(texture_type) { case LLViewerTexture::FETCHED_TEXTURE: imagep = new LLViewerFetchedTexture(image_id, f_type, request_from_host, usemipmaps); break ; case LLViewerTexture::LOD_TEXTURE: imagep = new LLViewerLODTexture(image_id, f_type, request_from_host, usemipmaps); break ; default: LL_ERRS() << "Invalid texture type " << texture_type << LL_ENDL ; } if (internal_format && primary_format) { imagep->setExplicitFormat(internal_format, primary_format); } addImage(imagep, get_element_type(boost_priority)); if (boost_priority != 0) { if (boost_priority == LLViewerFetchedTexture::BOOST_UI) { imagep->dontDiscard(); } if (boost_priority == LLViewerFetchedTexture::BOOST_ICON) { // Agent and group Icons are downloadable content, nothing manages // icon deletion yet, so they should not persist. imagep->dontDiscard(); imagep->forceActive(); } imagep->setBoostLevel(boost_priority); } else { //by default, the texture can not be removed from memory even if it is not used. //here turn this off //if this texture should be set to NO_DELETE, call setNoDelete() afterwards. imagep->forceActive() ; } if(fast_cache_fetching_enabled) { mFastCacheList.insert(imagep); imagep->setInFastCacheList(true); } return imagep ; } void LLViewerTextureList::findTexturesByID(const LLUUID &image_id, std::vector &output) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; LLTextureKey search_key(image_id, TEX_LIST_STANDARD); uuid_map_t::iterator iter = mUUIDMap.lower_bound(search_key); while (iter != mUUIDMap.end() && iter->first.textureId == image_id) { output.push_back(iter->second); iter++; } } LLViewerFetchedTexture *LLViewerTextureList::findImage(const LLTextureKey &search_key) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; uuid_map_t::iterator iter = mUUIDMap.find(search_key); if (iter == mUUIDMap.end()) return NULL; return iter->second; } LLViewerFetchedTexture *LLViewerTextureList::findImage(const LLUUID &image_id, ETexListType tex_type) { return findImage(LLTextureKey(image_id, tex_type)); } void LLViewerTextureList::addImageToList(LLViewerFetchedTexture *image) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; assert_main_thread(); llassert_always(mInitialized) ; llassert(image); if (image->isInImageList()) { // Flag is already set? LL_WARNS() << "LLViewerTextureList::addImageToList - image " << image->getID() << " already in list" << LL_ENDL; } else { if((mImageList.insert(image)).second != true) { LL_WARNS() << "Error happens when insert image " << image->getID() << " into mImageList!" << LL_ENDL ; } image->setInImageList(TRUE) ; } } void LLViewerTextureList::removeImageFromList(LLViewerFetchedTexture *image) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; assert_main_thread(); llassert_always(mInitialized) ; llassert(image); S32 count = 0; if (image->isInImageList()) { count = mImageList.erase(image) ; if(count != 1) { LL_INFOS() << "Image " << image->getID() << " had mInImageList set but mImageList.erase() returned " << count << LL_ENDL; } } else { // Something is wrong, image is expected in list or callers should check first LL_INFOS() << "Calling removeImageFromList() for " << image->getID() << " but doesn't have mInImageList set" << " ref count is " << image->getNumRefs() << LL_ENDL; uuid_map_t::iterator iter = mUUIDMap.find(LLTextureKey(image->getID(), (ETexListType)image->getTextureListType())); if(iter == mUUIDMap.end()) { LL_INFOS() << "Image " << image->getID() << " is also not in mUUIDMap!" << LL_ENDL ; } else if (iter->second != image) { LL_INFOS() << "Image " << image->getID() << " was in mUUIDMap but with different pointer" << LL_ENDL ; } else { LL_INFOS() << "Image " << image->getID() << " was in mUUIDMap with same pointer" << LL_ENDL ; } count = mImageList.erase(image) ; if(count != 0) { // it was in the list already? LL_WARNS() << "Image " << image->getID() << " had mInImageList false but mImageList.erase() returned " << count << LL_ENDL; } } image->setInImageList(FALSE) ; } void LLViewerTextureList::addImage(LLViewerFetchedTexture *new_image, ETexListType tex_type) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (!new_image) { return; } //llassert(new_image); LLUUID image_id = new_image->getID(); LLTextureKey key(image_id, tex_type); LLViewerFetchedTexture *image = findImage(key); if (image) { LL_INFOS() << "Image with ID " << image_id << " already in list" << LL_ENDL; } sNumImages++; addImageToList(new_image); mUUIDMap[key] = new_image; new_image->setTextureListType(tex_type); } void LLViewerTextureList::deleteImage(LLViewerFetchedTexture *image) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if( image) { if (image->hasCallbacks()) { mCallbackList.erase(image); } LLTextureKey key(image->getID(), (ETexListType)image->getTextureListType()); llverify(mUUIDMap.erase(key) == 1); sNumImages--; removeImageFromList(image); } } /////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////// void LLViewerTextureList::dirtyImage(LLViewerFetchedTexture *image) { mDirtyTextureList.insert(image); } //////////////////////////////////////////////////////////////////////////// void LLViewerTextureList::updateImages(F32 max_time) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; static BOOL cleared = FALSE; if(gTeleportDisplay) { if(!cleared) { clearFetchingRequests(); gPipeline.clearRebuildGroups(); cleared = TRUE; } return; } cleared = FALSE; LLAppViewer::getTextureFetch()->setTextureBandwidth(LLTrace::get_frame_recording().getPeriodMeanPerSec(LLStatViewer::TEXTURE_NETWORK_DATA_RECEIVED).value()); { using namespace LLStatViewer; sample(NUM_IMAGES, sNumImages); sample(NUM_RAW_IMAGES, LLImageRaw::sRawImageCount); sample(GL_TEX_MEM, LLImageGL::sGlobalTextureMemory); sample(GL_BOUND_MEM, LLImageGL::sBoundTextureMemory); sample(RAW_MEM, F64Bytes(LLImageRaw::sGlobalRawMemory)); sample(FORMATTED_MEM, F64Bytes(LLImageFormatted::sGlobalFormattedMemory)); } //loading from fast cache max_time -= updateImagesLoadingFastCache(max_time); updateImagesDecodePriorities(); F32 total_max_time = max_time; max_time -= updateImagesFetchTextures(max_time); max_time = llmax(max_time, total_max_time*.50f); // at least 50% of max_time max_time -= updateImagesCreateTextures(max_time); if (!mDirtyTextureList.empty()) { gPipeline.dirtyPoolObjectTextures(mDirtyTextureList); mDirtyTextureList.clear(); } bool didone = false; for (image_list_t::iterator iter = mCallbackList.begin(); iter != mCallbackList.end(); ) { //trigger loaded callbacks on local textures immediately LLViewerFetchedTexture* image = *iter++; if (!image->getUrl().empty()) { // Do stuff to handle callbacks, update priorities, etc. didone = image->doLoadedCallbacks(); } else if (!didone) { // Do stuff to handle callbacks, update priorities, etc. didone = image->doLoadedCallbacks(); } } updateImagesUpdateStats(); } void LLViewerTextureList::clearFetchingRequests() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (LLAppViewer::getTextureFetch()->getNumRequests() == 0) { return; } LLAppViewer::getTextureFetch()->deleteAllRequests(); for (image_priority_list_t::iterator iter = mImageList.begin(); iter != mImageList.end(); ++iter) { LLViewerFetchedTexture* imagep = *iter; imagep->forceToDeleteRequest() ; } } void LLViewerTextureList::updateImagesDecodePriorities() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // Update the decode priority for N images each frame { F32 lazy_flush_timeout = 30.f; // stop decoding F32 max_inactive_time = 20.f; // actually delete S32 min_refs = 3; // 1 for mImageList, 1 for mUUIDMap, 1 for local reference //reset imagep->getLastReferencedTimer() when screen is showing the progress view to avoid removing pre-fetched textures too soon. bool reset_timer = gViewerWindow->getProgressView()->getVisible(); static const S32 MAX_PRIO_UPDATES = gSavedSettings.getS32("TextureFetchUpdatePriorities"); // default: 32 const size_t max_update_count = llmin((S32) (MAX_PRIO_UPDATES*MAX_PRIO_UPDATES*gFrameIntervalSeconds.value()) + 1, MAX_PRIO_UPDATES); S32 update_counter = llmin(max_update_count, mUUIDMap.size()); uuid_map_t::iterator iter = mUUIDMap.upper_bound(mLastUpdateKey); while ((update_counter-- > 0) && !mUUIDMap.empty()) { if (iter == mUUIDMap.end()) { iter = mUUIDMap.begin(); } mLastUpdateKey = iter->first; LLPointer imagep = iter->second; ++iter; // safe to increment now if(imagep->isInDebug() || imagep->isUnremovable()) { update_counter--; continue; //is in debug, ignore. } // // Flush formatted images using a lazy flush // S32 num_refs = imagep->getNumRefs(); if (num_refs == min_refs) { if(reset_timer) { imagep->getLastReferencedTimer()->reset(); } else if (imagep->getLastReferencedTimer()->getElapsedTimeF32() > lazy_flush_timeout) { // Remove the unused image from the image list deleteImage(imagep); imagep = NULL; // should destroy the image } continue; } else { if(imagep->hasSavedRawImage()) { if(imagep->getElapsedLastReferencedSavedRawImageTime() > max_inactive_time) { imagep->destroySavedRawImage() ; } } if(imagep->isDeleted()) { continue ; } else if(imagep->isDeletionCandidate()) { imagep->destroyTexture() ; continue ; } else if(imagep->isInactive()) { if(reset_timer) { imagep->getLastReferencedTimer()->reset(); } else if (imagep->getLastReferencedTimer()->getElapsedTimeF32() > max_inactive_time) { imagep->setDeletionCandidate() ; } continue ; } else { imagep->getLastReferencedTimer()->reset(); //reset texture state. imagep->setInactive() ; } } if (!imagep->isInImageList()) { continue; } if(imagep->isInFastCacheList()) { continue; //wait for loading from the fast cache. } imagep->processTextureStats(); F32 old_priority = imagep->getDecodePriority(); F32 old_priority_test = llmax(old_priority, 0.0f); F32 decode_priority = imagep->calcDecodePriority(); F32 decode_priority_test = llmax(decode_priority, 0.0f); // Ignore < 20% difference if ((decode_priority_test < old_priority_test * .8f) || (decode_priority_test > old_priority_test * 1.25f)) { mImageList.erase(imagep) ; imagep->setDecodePriority(decode_priority); mImageList.insert(imagep); } } } } void LLViewerTextureList::setDebugFetching(LLViewerFetchedTexture* tex, S32 debug_level) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if(!tex->setDebugFetching(debug_level)) { return; } const F32 DEBUG_PRIORITY = 100000.f; F32 old_priority_test = llmax(tex->getDecodePriority(), 0.0f); F32 decode_priority_test = DEBUG_PRIORITY; // Ignore < 20% difference if ((decode_priority_test < old_priority_test * .8f) || (decode_priority_test > old_priority_test * 1.25f)) { removeImageFromList(tex); tex->setDecodePriority(decode_priority_test); addImageToList(tex); } } /* static U8 get_image_type(LLViewerFetchedTexture* imagep, LLHost target_host) { // Having a target host implies this is a baked image. I don't // believe that boost level has been set at this point. JC U8 type_from_host = (target_host.isOk() ? LLImageBase::TYPE_AVATAR_BAKE : LLImageBase::TYPE_NORMAL); S32 boost_level = imagep->getBoostLevel(); U8 type_from_boost = ( (boost_level == LLViewerFetchedTexture::BOOST_AVATAR_BAKED || boost_level == LLViewerFetchedTexture::BOOST_AVATAR_BAKED_SELF) ? LLImageBase::TYPE_AVATAR_BAKE : LLImageBase::TYPE_NORMAL); if (type_from_host == LLImageBase::TYPE_NORMAL && type_from_boost == LLImageBase::TYPE_AVATAR_BAKE) { LL_WARNS() << "TAT: get_image_type() type_from_host doesn't match type_from_boost" << " host " << target_host << " boost " << imagep->getBoostLevel() << " imageid " << imagep->getID() << LL_ENDL; imagep->dump(); } return type_from_host; } */ F32 LLViewerTextureList::updateImagesCreateTextures(F32 max_time) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (gGLManager.mIsDisabled) return 0.0f; // // Create GL textures for all textures that need them (images which have been // decoded, but haven't been pushed into GL). // LLTimer create_timer; image_list_t::iterator enditer = mCreateTextureList.begin(); for (image_list_t::iterator iter = mCreateTextureList.begin(); iter != mCreateTextureList.end();) { image_list_t::iterator curiter = iter++; enditer = iter; LLViewerFetchedTexture *imagep = *curiter; imagep->createTexture(); imagep->postCreateTexture(); if (create_timer.getElapsedTimeF32() > max_time) { break; } } mCreateTextureList.erase(mCreateTextureList.begin(), enditer); return create_timer.getElapsedTimeF32(); } F32 LLViewerTextureList::updateImagesLoadingFastCache(F32 max_time) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (gGLManager.mIsDisabled) return 0.0f; if(mFastCacheList.empty()) { return 0.f; } // // loading texture raw data from the fast cache directly. // LLTimer timer; image_list_t::iterator enditer = mFastCacheList.begin(); for (image_list_t::iterator iter = mFastCacheList.begin(); iter != mFastCacheList.end();) { image_list_t::iterator curiter = iter++; enditer = iter; LLViewerFetchedTexture *imagep = *curiter; imagep->loadFromFastCache(); if (timer.getElapsedTimeF32() > max_time) { break; } } mFastCacheList.erase(mFastCacheList.begin(), enditer); return timer.getElapsedTimeF32(); } void LLViewerTextureList::forceImmediateUpdate(LLViewerFetchedTexture* imagep) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if(!imagep) { return ; } if(imagep->isInImageList()) { removeImageFromList(imagep); } imagep->processTextureStats(); F32 decode_priority = LLViewerFetchedTexture::maxDecodePriority() ; imagep->setDecodePriority(decode_priority); addImageToList(imagep); return ; } F32 LLViewerTextureList::updateImagesFetchTextures(F32 max_time) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; LLTimer image_op_timer; // Update fetch for N images each frame static const S32 MAX_HIGH_PRIO_COUNT = gSavedSettings.getS32("TextureFetchUpdateHighPriority"); // default: 32 static const S32 MAX_UPDATE_COUNT = gSavedSettings.getS32("TextureFetchUpdateMaxMediumPriority"); // default: 256 static const S32 MIN_UPDATE_COUNT = gSavedSettings.getS32("TextureFetchUpdateMinMediumPriority"); // default: 32 static const F32 MIN_PRIORITY_THRESHOLD = gSavedSettings.getF32("TextureFetchUpdatePriorityThreshold"); // default: 0.0 static const bool SKIP_LOW_PRIO = gSavedSettings.getBOOL("TextureFetchUpdateSkipLowPriority"); // default: false size_t max_priority_count = llmin((S32) (MAX_HIGH_PRIO_COUNT*MAX_HIGH_PRIO_COUNT*gFrameIntervalSeconds.value())+1, MAX_HIGH_PRIO_COUNT); max_priority_count = llmin(max_priority_count, mImageList.size()); size_t total_update_count = mUUIDMap.size(); size_t max_update_count = llmin((S32) (MAX_UPDATE_COUNT*MAX_UPDATE_COUNT*gFrameIntervalSeconds.value())+1, MAX_UPDATE_COUNT); max_update_count = llmin(max_update_count, total_update_count); // MAX_HIGH_PRIO_COUNT high priority entries typedef std::vector entries_list_t; entries_list_t entries; size_t update_counter = max_priority_count; image_priority_list_t::iterator iter1 = mImageList.begin(); while(update_counter > 0) { entries.push_back(*iter1); ++iter1; update_counter--; } // MAX_UPDATE_COUNT cycled entries update_counter = max_update_count; if(update_counter > 0) { uuid_map_t::iterator iter2 = mUUIDMap.upper_bound(mLastFetchKey); while ((update_counter > 0) && (total_update_count > 0)) { if (iter2 == mUUIDMap.end()) { iter2 = mUUIDMap.begin(); } LLViewerFetchedTexture* imagep = iter2->second; // Skip the textures where there's really nothing to do so to give some times to others. Also skip the texture if it's already in the high prio set. if (!SKIP_LOW_PRIO || (SKIP_LOW_PRIO && ((imagep->getDecodePriority() > MIN_PRIORITY_THRESHOLD) || imagep->hasFetcher()))) { entries.push_back(imagep); update_counter--; } iter2++; total_update_count--; } } S32 fetch_count = 0; size_t min_update_count = llmin(MIN_UPDATE_COUNT,(S32)(entries.size()-max_priority_count)); S32 min_count = max_priority_count + min_update_count; for (entries_list_t::iterator iter3 = entries.begin(); iter3 != entries.end(); ) { LLViewerFetchedTexture* imagep = *iter3++; fetch_count += (imagep->updateFetch() ? 1 : 0); if (min_count <= min_update_count) { mLastFetchKey = LLTextureKey(imagep->getID(), (ETexListType)imagep->getTextureListType()); } if ((min_count-- <= 0) && (image_op_timer.getElapsedTimeF32() > max_time)) { break; } } return image_op_timer.getElapsedTimeF32(); } void LLViewerTextureList::updateImagesUpdateStats() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (mForceResetTextureStats) { for (image_priority_list_t::iterator iter = mImageList.begin(); iter != mImageList.end(); ) { LLViewerFetchedTexture* imagep = *iter++; imagep->resetTextureStats(); } mForceResetTextureStats = FALSE; } } void LLViewerTextureList::decodeAllImages(F32 max_time) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; LLTimer timer; //loading from fast cache updateImagesLoadingFastCache(max_time); // Update texture stats and priorities std::vector > image_list; for (image_priority_list_t::iterator iter = mImageList.begin(); iter != mImageList.end(); ) { LLViewerFetchedTexture* imagep = *iter++; image_list.push_back(imagep); imagep->setInImageList(FALSE) ; } llassert_always(image_list.size() == mImageList.size()) ; mImageList.clear(); for (std::vector >::iterator iter = image_list.begin(); iter != image_list.end(); ++iter) { LLViewerFetchedTexture* imagep = *iter; imagep->processTextureStats(); F32 decode_priority = imagep->calcDecodePriority(); imagep->setDecodePriority(decode_priority); addImageToList(imagep); } image_list.clear(); // Update fetch (decode) for (image_priority_list_t::iterator iter = mImageList.begin(); iter != mImageList.end(); ) { LLViewerFetchedTexture* imagep = *iter++; imagep->updateFetch(); } std::shared_ptr main_queue = LLImageGLThread::sEnabled ? LL::WorkQueue::getInstance("mainloop") : NULL; // Run threads S32 fetch_pending = 0; while (1) { LLAppViewer::instance()->getTextureCache()->update(1); // unpauses the texture cache thread LLAppViewer::instance()->getImageDecodeThread()->update(1); // unpauses the image thread fetch_pending = LLAppViewer::instance()->getTextureFetch()->update(1); // unpauses the texture fetch thread if (LLImageGLThread::sEnabled) { main_queue->runFor(std::chrono::milliseconds(1)); fetch_pending += main_queue->size(); } if (fetch_pending == 0 || timer.getElapsedTimeF32() > max_time) { break; } } // Update fetch again for (image_priority_list_t::iterator iter = mImageList.begin(); iter != mImageList.end(); ) { LLViewerFetchedTexture* imagep = *iter++; imagep->updateFetch(); } max_time -= timer.getElapsedTimeF32(); max_time = llmax(max_time, .001f); F32 create_time = updateImagesCreateTextures(max_time); LL_DEBUGS("ViewerImages") << "decodeAllImages() took " << timer.getElapsedTimeF32() << " seconds. " << " fetch_pending " << fetch_pending << " create_time " << create_time << LL_ENDL; } BOOL LLViewerTextureList::createUploadFile(const std::string& filename, const std::string& out_filename, const U8 codec) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // Load the image LLPointer image = LLImageFormatted::createFromType(codec); if (image.isNull()) { LL_WARNS() << "Couldn't open the image to be uploaded." << LL_ENDL; return FALSE; } if (!image->load(filename)) { image->setLastError("Couldn't load the image to be uploaded."); return FALSE; } // Decompress or expand it in a raw image structure LLPointer raw_image = new LLImageRaw; if (!image->decode(raw_image, 0.0f)) { image->setLastError("Couldn't decode the image to be uploaded."); return FALSE; } // Check the image constraints if ((image->getComponents() != 3) && (image->getComponents() != 4)) { image->setLastError("Image files with less than 3 or more than 4 components are not supported."); return FALSE; } // Convert to j2c (JPEG2000) and save the file locally LLPointer compressedImage = convertToUploadFile(raw_image); if (compressedImage.isNull()) { image->setLastError("Couldn't convert the image to jpeg2000."); LL_INFOS() << "Couldn't convert to j2c, file : " << filename << LL_ENDL; return FALSE; } if (!compressedImage->save(out_filename)) { image->setLastError("Couldn't create the jpeg2000 image for upload."); LL_INFOS() << "Couldn't create output file : " << out_filename << LL_ENDL; return FALSE; } // Test to see if the encode and save worked LLPointer integrity_test = new LLImageJ2C; if (!integrity_test->loadAndValidate( out_filename )) { image->setLastError("The created jpeg2000 image is corrupt."); LL_INFOS() << "Image file : " << out_filename << " is corrupt" << LL_ENDL; return FALSE; } return TRUE; } // note: modifies the argument raw_image!!!! LLPointer LLViewerTextureList::convertToUploadFile(LLPointer raw_image) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; raw_image->biasedScaleToPowerOfTwo(LLViewerFetchedTexture::MAX_IMAGE_SIZE_DEFAULT); LLPointer compressedImage = new LLImageJ2C(); if (gSavedSettings.getBOOL("LosslessJ2CUpload") && (raw_image->getWidth() * raw_image->getHeight() <= LL_IMAGE_REZ_LOSSLESS_CUTOFF * LL_IMAGE_REZ_LOSSLESS_CUTOFF)) compressedImage->setReversible(TRUE); if (gSavedSettings.getBOOL("Jpeg2000AdvancedCompression")) { // This test option will create jpeg2000 images with precincts for each level, RPCL ordering // and PLT markers. The block size is also optionally modifiable. // Note: the images hence created are compatible with older versions of the viewer. // Read the blocks and precincts size settings S32 block_size = gSavedSettings.getS32("Jpeg2000BlocksSize"); S32 precinct_size = gSavedSettings.getS32("Jpeg2000PrecinctsSize"); LL_INFOS() << "Advanced JPEG2000 Compression: precinct = " << precinct_size << ", block = " << block_size << LL_ENDL; compressedImage->initEncode(*raw_image, block_size, precinct_size, 0); } if (!compressedImage->encode(raw_image, 0.0f)) { LL_INFOS() << "convertToUploadFile : encode returns with error!!" << LL_ENDL; // Clear up the pointer so we don't leak that one compressedImage = NULL; } return compressedImage; } // Returns min setting for TextureMemory (in MB) S32Megabytes LLViewerTextureList::getMinVideoRamSetting() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; U32Megabytes system_ram = gSysMemory.getPhysicalMemoryKB(); //min texture mem sets to 64M if total physical mem is more than 1.5GB return (system_ram > U32Megabytes(1500)) ? S32Megabytes(64) : gMinVideoRam ; } //static // Returns max setting for TextureMemory (in MB) S32Megabytes LLViewerTextureList::getMaxVideoRamSetting(bool get_recommended, float mem_multiplier) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; S32Megabytes max_texmem; if (gGLManager.mVRAM != 0) { // Treat any card with < 32 MB (shudder) as having 32 MB // - it's going to be swapping constantly regardless S32Megabytes max_vram(gGLManager.mVRAM); if(gGLManager.mIsAMD) { //shrink the availabe vram for ATI cards because some of them do not handel texture swapping well. max_vram = max_vram * 0.75f; } max_vram = llmax(max_vram, getMinVideoRamSetting()); max_texmem = max_vram; if (!get_recommended) max_texmem *= 2; } else { if (!get_recommended) { max_texmem = (S32Megabytes)512; } else if (gSavedSettings.getBOOL("NoHardwareProbe")) //did not do hardware detection at startup { max_texmem = (S32Megabytes)512; } else { max_texmem = (S32Megabytes)128; } } S32Megabytes system_ram = gSysMemory.getPhysicalMemoryKB(); // In MB //LL_INFOS() << "*** DETECTED " << system_ram << " MB of system memory." << LL_ENDL; if (get_recommended) max_texmem = llmin(max_texmem, system_ram/2); else max_texmem = llmin(max_texmem, system_ram); // limit the texture memory to a multiple of the default if we've found some cards to behave poorly otherwise max_texmem = llmin(max_texmem, (S32Megabytes) (mem_multiplier * max_texmem)); max_texmem = llclamp(max_texmem, getMinVideoRamSetting(), gMaxVideoRam); return max_texmem; } bool LLViewerTextureList::isPrioRequestsFetched() { static LLCachedControl prio_threshold(gSavedSettings, "TextureFetchUpdatePriorityThreshold", 0.0f); static LLCachedControl fetching_textures_threshold(gSavedSettings, "TextureListFetchingThreshold", 0.97f); S32 fetching_tex_count = 0; S32 tex_count_threshold = gTextureList.mImageList.size() * (1 - fetching_textures_threshold); for (LLViewerTextureList::image_priority_list_t::iterator iter = gTextureList.mImageList.begin(); iter != gTextureList.mImageList.end(); ) { LLPointer imagep = *iter++; if (imagep->getDecodePriority() > prio_threshold) { if (imagep->hasFetcher() || imagep->isFetching()) { fetching_tex_count++; if (fetching_tex_count >= tex_count_threshold) { return false; } } } } return true; } const S32Megabytes VIDEO_CARD_FRAMEBUFFER_MEM(12); const S32Megabytes MIN_MEM_FOR_NON_TEXTURE(512); void LLViewerTextureList::updateMaxResidentTexMem(S32Megabytes mem) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // Initialize the image pipeline VRAM settings S32Megabytes cur_mem(gSavedSettings.getS32("TextureMemory")); F32 mem_multiplier = gSavedSettings.getF32("RenderTextureMemoryMultiple"); S32Megabytes default_mem = getMaxVideoRamSetting(true, mem_multiplier); // recommended default if (mem == (S32Bytes)0) { mem = cur_mem > (S32Bytes)0 ? cur_mem : default_mem; } else if (mem < (S32Bytes)0) { mem = default_mem; } mem = llclamp(mem, getMinVideoRamSetting(), getMaxVideoRamSetting(false, mem_multiplier)); if (mem != cur_mem) { gSavedSettings.setS32("TextureMemory", mem.value()); return; //listener will re-enter this function } if (gGLManager.mVRAM == 0) { LL_WARNS() << "VRAM amount not detected, defaulting to " << mem << " MB" << LL_ENDL; } // TODO: set available resident texture mem based on use by other subsystems // currently max(12MB, VRAM/4) assumed... S32Megabytes vb_mem = mem; S32Megabytes fb_mem = llmax(VIDEO_CARD_FRAMEBUFFER_MEM, vb_mem/4); mMaxResidentTexMemInMegaBytes = (vb_mem - fb_mem) ; //in MB mMaxTotalTextureMemInMegaBytes = mMaxResidentTexMemInMegaBytes * 2; if (mMaxResidentTexMemInMegaBytes > (S32Megabytes)640) { mMaxTotalTextureMemInMegaBytes -= (mMaxResidentTexMemInMegaBytes / 4); } //system mem S32Megabytes system_ram = gSysMemory.getPhysicalMemoryKB(); //minimum memory reserved for non-texture use. //if system_raw >= 1GB, reserve at least 512MB for non-texture use; //otherwise reserve half of the system_ram for non-texture use. S32Megabytes min_non_texture_mem = llmin(system_ram / 2, MIN_MEM_FOR_NON_TEXTURE) ; if (mMaxTotalTextureMemInMegaBytes > system_ram - min_non_texture_mem) { mMaxTotalTextureMemInMegaBytes = system_ram - min_non_texture_mem ; } LL_INFOS() << "Total Video Memory set to: " << vb_mem << " MB" << LL_ENDL; LL_INFOS() << "Available Texture Memory set to: " << (vb_mem - fb_mem) << " MB" << LL_ENDL; } /////////////////////////////////////////////////////////////////////////////// // We've been that the asset server does not contain the requested image id. // static void LLViewerTextureList::processImageNotInDatabase(LLMessageSystem *msg,void **user_data) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; LLUUID image_id; msg->getUUIDFast(_PREHASH_ImageID, _PREHASH_ID, image_id); LLViewerFetchedTexture* image = gTextureList.findImage( image_id, TEX_LIST_STANDARD); if( image ) { LL_WARNS() << "Image not in db" << LL_ENDL; image->setIsMissingAsset(); } image = gTextureList.findImage(image_id, TEX_LIST_SCALE); if (image) { LL_WARNS() << "Icon not in db" << LL_ENDL; image->setIsMissingAsset(); } } /////////////////////////////////////////////////////////////////////////////// // explicitly cleanup resources, as this is a singleton class with process // lifetime so ability to perform std::map operations in destructor is not // guaranteed. void LLUIImageList::cleanUp() { mUIImages.clear(); mUITextureList.clear() ; } LLUIImagePtr LLUIImageList::getUIImageByID(const LLUUID& image_id, S32 priority) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // use id as image name std::string image_name = image_id.asString(); // look for existing image uuid_ui_image_map_t::iterator found_it = mUIImages.find(image_name); if (found_it != mUIImages.end()) { return found_it->second; } const BOOL use_mips = FALSE; const LLRect scale_rect = LLRect::null; const LLRect clip_rect = LLRect::null; return loadUIImageByID(image_id, use_mips, scale_rect, clip_rect, (LLViewerTexture::EBoostLevel)priority); } LLUIImagePtr LLUIImageList::getUIImage(const std::string& image_name, S32 priority) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // look for existing image uuid_ui_image_map_t::iterator found_it = mUIImages.find(image_name); if (found_it != mUIImages.end()) { return found_it->second; } const BOOL use_mips = FALSE; const LLRect scale_rect = LLRect::null; const LLRect clip_rect = LLRect::null; return loadUIImageByName(image_name, image_name, use_mips, scale_rect, clip_rect, (LLViewerTexture::EBoostLevel)priority); } LLUIImagePtr LLUIImageList::loadUIImageByName(const std::string& name, const std::string& filename, BOOL use_mips, const LLRect& scale_rect, const LLRect& clip_rect, LLViewerTexture::EBoostLevel boost_priority, LLUIImage::EScaleStyle scale_style) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (boost_priority == LLGLTexture::BOOST_NONE) { boost_priority = LLGLTexture::BOOST_UI; } LLViewerFetchedTexture* imagep = LLViewerTextureManager::getFetchedTextureFromFile(filename, FTT_LOCAL_FILE, MIPMAP_NO, boost_priority); return loadUIImage(imagep, name, use_mips, scale_rect, clip_rect, scale_style); } LLUIImagePtr LLUIImageList::loadUIImageByID(const LLUUID& id, BOOL use_mips, const LLRect& scale_rect, const LLRect& clip_rect, LLViewerTexture::EBoostLevel boost_priority, LLUIImage::EScaleStyle scale_style) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (boost_priority == LLGLTexture::BOOST_NONE) { boost_priority = LLGLTexture::BOOST_UI; } LLViewerFetchedTexture* imagep = LLViewerTextureManager::getFetchedTexture(id, FTT_DEFAULT, MIPMAP_NO, boost_priority); return loadUIImage(imagep, id.asString(), use_mips, scale_rect, clip_rect, scale_style); } LLUIImagePtr LLUIImageList::loadUIImage(LLViewerFetchedTexture* imagep, const std::string& name, BOOL use_mips, const LLRect& scale_rect, const LLRect& clip_rect, LLUIImage::EScaleStyle scale_style) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if (!imagep) return NULL; imagep->setAddressMode(LLTexUnit::TAM_CLAMP); //don't compress UI images imagep->getGLTexture()->setAllowCompression(false); LLUIImagePtr new_imagep = new LLUIImage(name, imagep); new_imagep->setScaleStyle(scale_style); if (imagep->getBoostLevel() != LLGLTexture::BOOST_ICON && imagep->getBoostLevel() != LLGLTexture::BOOST_PREVIEW) { // Don't add downloadable content into this list // all UI images are non-deletable and list does not support deletion imagep->setNoDelete(); mUIImages.insert(std::make_pair(name, new_imagep)); mUITextureList.push_back(imagep); } //Note: //Some other textures such as ICON also through this flow to be fetched. //But only UI textures need to set this callback. if(imagep->getBoostLevel() == LLGLTexture::BOOST_UI) { LLUIImageLoadData* datap = new LLUIImageLoadData; datap->mImageName = name; datap->mImageScaleRegion = scale_rect; datap->mImageClipRegion = clip_rect; imagep->setLoadedCallback(onUIImageLoaded, 0, FALSE, FALSE, datap, NULL); } return new_imagep; } LLUIImagePtr LLUIImageList::preloadUIImage(const std::string& name, const std::string& filename, BOOL use_mips, const LLRect& scale_rect, const LLRect& clip_rect, LLUIImage::EScaleStyle scale_style) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // look for existing image uuid_ui_image_map_t::iterator found_it = mUIImages.find(name); if (found_it != mUIImages.end()) { // image already loaded! LL_ERRS() << "UI Image " << name << " already loaded." << LL_ENDL; } return loadUIImageByName(name, filename, use_mips, scale_rect, clip_rect, LLGLTexture::BOOST_UI, scale_style); } //static void LLUIImageList::onUIImageLoaded( BOOL success, LLViewerFetchedTexture *src_vi, LLImageRaw* src, LLImageRaw* src_aux, S32 discard_level, BOOL final, void* user_data ) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; if(!success || !user_data) { return; } LLUIImageLoadData* image_datap = (LLUIImageLoadData*)user_data; std::string ui_image_name = image_datap->mImageName; LLRect scale_rect = image_datap->mImageScaleRegion; LLRect clip_rect = image_datap->mImageClipRegion; if (final) { delete image_datap; } LLUIImageList* instance = getInstance(); uuid_ui_image_map_t::iterator found_it = instance->mUIImages.find(ui_image_name); if (found_it != instance->mUIImages.end()) { LLUIImagePtr imagep = found_it->second; // for images grabbed from local files, apply clipping rectangle to restore original dimensions // from power-of-2 gl image if (success && imagep.notNull() && src_vi && (src_vi->getUrl().compare(0, 7, "file://")==0)) { F32 full_width = (F32)src_vi->getFullWidth(); F32 full_height = (F32)src_vi->getFullHeight(); F32 clip_x = (F32)src_vi->getOriginalWidth() / full_width; F32 clip_y = (F32)src_vi->getOriginalHeight() / full_height; if (clip_rect != LLRect::null) { imagep->setClipRegion(LLRectf(llclamp((F32)clip_rect.mLeft / full_width, 0.f, 1.f), llclamp((F32)clip_rect.mTop / full_height, 0.f, 1.f), llclamp((F32)clip_rect.mRight / full_width, 0.f, 1.f), llclamp((F32)clip_rect.mBottom / full_height, 0.f, 1.f))); } else { imagep->setClipRegion(LLRectf(0.f, clip_y, clip_x, 0.f)); } if (scale_rect != LLRect::null) { imagep->setScaleRegion( LLRectf(llclamp((F32)scale_rect.mLeft / (F32)imagep->getWidth(), 0.f, 1.f), llclamp((F32)scale_rect.mTop / (F32)imagep->getHeight(), 0.f, 1.f), llclamp((F32)scale_rect.mRight / (F32)imagep->getWidth(), 0.f, 1.f), llclamp((F32)scale_rect.mBottom / (F32)imagep->getHeight(), 0.f, 1.f))); } imagep->onImageLoaded(); } } } namespace LLInitParam { template<> struct TypeValues : public TypeValuesHelper { static void declareValues() { declare("scale_inner", LLUIImage::SCALE_INNER); declare("scale_outer", LLUIImage::SCALE_OUTER); } }; } struct UIImageDeclaration : public LLInitParam::Block { Mandatory name; Optional file_name; Optional preload; Optional scale; Optional clip; Optional use_mips; Optional scale_type; UIImageDeclaration() : name("name"), file_name("file_name"), preload("preload", false), scale("scale"), clip("clip"), use_mips("use_mips", false), scale_type("scale_type", LLUIImage::SCALE_INNER) {} }; struct UIImageDeclarations : public LLInitParam::Block { Mandatory version; Multiple textures; UIImageDeclarations() : version("version"), textures("texture") {} }; bool LLUIImageList::initFromFile() { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; // Look for textures.xml in all the right places. Pass // constraint=LLDir::ALL_SKINS because we want to overlay textures.xml // from all the skins directories. std::vector textures_paths = gDirUtilp->findSkinnedFilenames(LLDir::TEXTURES, "textures.xml", LLDir::ALL_SKINS); std::vector::const_iterator pi(textures_paths.begin()), pend(textures_paths.end()); if (pi == pend) { LL_WARNS() << "No textures.xml found in skins directories" << LL_ENDL; return false; } // The first (most generic) file gets special validations LLXMLNodePtr root; if (!LLXMLNode::parseFile(*pi, root, NULL)) { LL_WARNS() << "Unable to parse UI image list file " << *pi << LL_ENDL; return false; } if (!root->hasAttribute("version")) { LL_WARNS() << "No valid version number in UI image list file " << *pi << LL_ENDL; return false; } UIImageDeclarations images; LLXUIParser parser; parser.readXUI(root, images, *pi); // add components defined in the rest of the skin paths while (++pi != pend) { LLXMLNodePtr update_root; if (LLXMLNode::parseFile(*pi, update_root, NULL)) { parser.readXUI(update_root, images, *pi); } } if (!images.validateBlock()) return false; std::map merged_declarations; for (LLInitParam::ParamIterator::const_iterator image_it = images.textures.begin(); image_it != images.textures.end(); ++image_it) { merged_declarations[image_it->name].overwriteFrom(*image_it); } enum e_decode_pass { PASS_DECODE_NOW, PASS_DECODE_LATER, NUM_PASSES }; for (S32 cur_pass = PASS_DECODE_NOW; cur_pass < NUM_PASSES; cur_pass++) { for (std::map::const_iterator image_it = merged_declarations.begin(); image_it != merged_declarations.end(); ++image_it) { const UIImageDeclaration& image = image_it->second; std::string file_name = image.file_name.isProvided() ? image.file_name() : image.name(); // load high priority textures on first pass (to kick off decode) enum e_decode_pass decode_pass = image.preload ? PASS_DECODE_NOW : PASS_DECODE_LATER; if (decode_pass != cur_pass) { continue; } preloadUIImage(image.name, file_name, image.use_mips, image.scale, image.clip, image.scale_type); } if (!gSavedSettings.getBOOL("NoPreload")) { if (cur_pass == PASS_DECODE_NOW) { // init fetching and decoding of preloaded images gTextureList.decodeAllImages(9.f); } else { // decodeAllImages needs two passes to refresh stats and priorities on second pass gTextureList.decodeAllImages(1.f); } } } return true; }