/** * @file llviewerassetstats_tut.cpp * @date 2010-10-28 * @brief Test cases for some of newview/llviewerassetstats.cpp * * $LicenseInfo:firstyear=2010&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include #include #include "lltut.h" #include "../llviewerassetstats.h" #include "lluuid.h" #include "llsdutil.h" #include "llregionhandle.h" #include "../llvoavatar.h" void LLVOAvatar::getNearbyRezzedStats(std::vector& counts) { counts.resize(3); counts[0] = 0; counts[1] = 0; counts[2] = 1; } // static std::string LLVOAvatar::rezStatusToString(S32 rez_status) { if (rez_status==0) return "cloud"; if (rez_status==1) return "gray"; if (rez_status==2) return "textured"; return "unknown"; } // static LLViewerStats::StatsAccumulator& LLViewerStats::PhaseMap::getPhaseStats(const std::string& phase_name) { static LLViewerStats::StatsAccumulator junk; return junk; } static const char * all_keys[] = { "duration", "fps", "get_other", "get_texture_temp_http", "get_texture_temp_udp", "get_texture_non_temp_http", "get_texture_non_temp_udp", "get_wearable_udp", "get_sound_udp", "get_gesture_udp" }; static const char * resp_keys[] = { "get_other", "get_texture_temp_http", "get_texture_temp_udp", "get_texture_non_temp_http", "get_texture_non_temp_udp", "get_wearable_udp", "get_sound_udp", "get_gesture_udp" }; static const char * sub_keys[] = { "dequeued", "enqueued", "resp_count", "resp_max", "resp_min", "resp_mean" }; static const char * mmm_resp_keys[] = { "fps" }; static const char * mmm_sub_keys[] = { "count", "max", "min", "mean" }; static const LLUUID region1("4e2d81a3-6263-6ffe-ad5c-8ce04bee07e8"); static const LLUUID region2("68762cc8-b68b-4e45-854b-e830734f2d4a"); static const U64 region1_handle(0x0000040000003f00ULL); static const U64 region2_handle(0x0000030000004200ULL); static const std::string region1_handle_str("0000040000003f00"); static const std::string region2_handle_str("0000030000004200"); #if 0 static bool is_empty_map(const LLSD & sd) { return sd.isMap() && 0 == sd.size(); } static bool is_single_key_map(const LLSD & sd, const std::string & key) { return sd.isMap() && 1 == sd.size() && sd.has(key); } static bool is_double_key_map(const LLSD & sd, const std::string & key1, const std::string & key2) { return sd.isMap() && 2 == sd.size() && sd.has(key1) && sd.has(key2); } #endif static bool is_triple_key_map(const LLSD & sd, const std::string & key1, const std::string & key2, const std::string& key3) { return sd.isMap() && 3 == sd.size() && sd.has(key1) && sd.has(key2) && sd.has(key3); } static bool is_no_stats_map(const LLSD & sd) { return is_triple_key_map(sd, "duration", "regions", "avatar"); } static bool is_single_slot_array(const LLSD & sd, U64 region_handle) { U32 grid_x(0), grid_y(0); grid_from_region_handle(region_handle, &grid_x, &grid_y); return (sd.isArray() && 1 == sd.size() && sd[0].has("grid_x") && sd[0].has("grid_y") && sd[0]["grid_x"].isInteger() && sd[0]["grid_y"].isInteger() && grid_x == sd[0]["grid_x"].asInteger() && grid_y == sd[0]["grid_y"].asInteger()); } static bool is_double_slot_array(const LLSD & sd, U64 region_handle1, U64 region_handle2) { U32 grid_x1(0), grid_y1(0); U32 grid_x2(0), grid_y2(0); grid_from_region_handle(region_handle1, &grid_x1, &grid_y1); grid_from_region_handle(region_handle2, &grid_x2, &grid_y2); return (sd.isArray() && 2 == sd.size() && sd[0].has("grid_x") && sd[0].has("grid_y") && sd[0]["grid_x"].isInteger() && sd[0]["grid_y"].isInteger() && sd[1].has("grid_x") && sd[1].has("grid_y") && sd[1]["grid_x"].isInteger() && sd[1]["grid_y"].isInteger() && ((grid_x1 == sd[0]["grid_x"].asInteger() && grid_y1 == sd[0]["grid_y"].asInteger() && grid_x2 == sd[1]["grid_x"].asInteger() && grid_y2 == sd[1]["grid_y"].asInteger()) || (grid_x1 == sd[1]["grid_x"].asInteger() && grid_y1 == sd[1]["grid_y"].asInteger() && grid_x2 == sd[0]["grid_x"].asInteger() && grid_y2 == sd[0]["grid_y"].asInteger()))); } static LLSD get_region(const LLSD & sd, U64 region_handle1) { U32 grid_x(0), grid_y(0); grid_from_region_handle(region_handle1, &grid_x, &grid_y); for (LLSD::array_const_iterator it(sd["regions"].beginArray()); sd["regions"].endArray() != it; ++it) { if ((*it).has("grid_x") && (*it).has("grid_y") && (*it)["grid_x"].isInteger() && (*it)["grid_y"].isInteger() && (*it)["grid_x"].asInteger() == grid_x && (*it)["grid_y"].asInteger() == grid_y) { return *it; } } return LLSD(); } namespace tut { struct tst_viewerassetstats_index {}; typedef test_group tst_viewerassetstats_index_t; typedef tst_viewerassetstats_index_t::object tst_viewerassetstats_index_object_t; tut::tst_viewerassetstats_index_t tut_tst_viewerassetstats_index("tst_viewerassetstats_test"); // Testing free functions without global stats allocated template<> template<> void tst_viewerassetstats_index_object_t::test<1>() { // Check that helpers aren't bothered by missing global stats ensure("Global gViewerAssetStatsMain should be NULL", (NULL == gViewerAssetStatsMain)); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_response_main(LLViewerAssetType::AT_GESTURE, false, false, 12300000ULL); } // Create a non-global instance and check the structure template<> template<> void tst_viewerassetstats_index_object_t::test<2>() { ensure("Global gViewerAssetStatsMain should be NULL", (NULL == gViewerAssetStatsMain)); LLViewerAssetStats * it = new LLViewerAssetStats(); ensure("Global gViewerAssetStatsMain should still be NULL", (NULL == gViewerAssetStatsMain)); LLSD sd_full = it->asLLSD(false); // Default (NULL) region ID doesn't produce LLSD results so should // get an empty map back from output ensure("Stat-less LLSD initially", is_no_stats_map(sd_full)); // Once the region is set, we will get a response even with no data collection it->setRegion(region1_handle); sd_full = it->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd_full, "duration", "regions", "avatar")); ensure("Correct single-slot LLSD array regions", is_single_slot_array(sd_full["regions"], region1_handle)); LLSD sd = sd_full["regions"][0]; delete it; // Check the structure of the LLSD for (int i = 0; i < LL_ARRAY_SIZE(all_keys); ++i) { std::string line = llformat("Has '%s' key", all_keys[i]); ensure(line, sd.has(all_keys[i])); } for (int i = 0; i < LL_ARRAY_SIZE(resp_keys); ++i) { for (int j = 0; j < LL_ARRAY_SIZE(sub_keys); ++j) { std::string line = llformat("Key '%s' has '%s' key", resp_keys[i], sub_keys[j]); ensure(line, sd[resp_keys[i]].has(sub_keys[j])); } } for (int i = 0; i < LL_ARRAY_SIZE(mmm_resp_keys); ++i) { for (int j = 0; j < LL_ARRAY_SIZE(mmm_sub_keys); ++j) { std::string line = llformat("Key '%s' has '%s' key", mmm_resp_keys[i], mmm_sub_keys[j]); ensure(line, sd[mmm_resp_keys[i]].has(mmm_sub_keys[j])); } } } // Create a non-global instance and check some content template<> template<> void tst_viewerassetstats_index_object_t::test<3>() { LLViewerAssetStats * it = new LLViewerAssetStats(); it->setRegion(region1_handle); LLSD sd = it->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd, "regions", "duration", "avatar")); ensure("Correct single-slot LLSD array regions", is_single_slot_array(sd["regions"], region1_handle)); sd = sd[0]; delete it; // Check a few points on the tree for content ensure("sd[get_texture_temp_http][dequeued] is 0", (0 == sd["get_texture_temp_http"]["dequeued"].asInteger())); ensure("sd[get_sound_udp][resp_min] is 0", (0.0 == sd["get_sound_udp"]["resp_min"].asReal())); } // Create a global instance and verify free functions do something useful template<> template<> void tst_viewerassetstats_index_object_t::test<4>() { gViewerAssetStatsMain = new LLViewerAssetStats(); LLViewerAssetStatsFF::set_region_main(region1_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, false); LLSD sd = gViewerAssetStatsMain->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd, "regions", "duration", "avatar")); ensure("Correct single-slot LLSD array regions", is_single_slot_array(sd["regions"], region1_handle)); sd = sd["regions"][0]; // Check a few points on the tree for content ensure("sd[get_texture_non_temp_udp][enqueued] is 1", (1 == sd["get_texture_non_temp_udp"]["enqueued"].asInteger())); ensure("sd[get_texture_temp_udp][enqueued] is 0", (0 == sd["get_texture_temp_udp"]["enqueued"].asInteger())); ensure("sd[get_texture_non_temp_http][enqueued] is 0", (0 == sd["get_texture_non_temp_http"]["enqueued"].asInteger())); ensure("sd[get_texture_temp_http][enqueued] is 0", (0 == sd["get_texture_temp_http"]["enqueued"].asInteger())); ensure("sd[get_gesture_udp][dequeued] is 0", (0 == sd["get_gesture_udp"]["dequeued"].asInteger())); // Reset and check zeros... // Reset leaves current region in place gViewerAssetStatsMain->reset(); sd = gViewerAssetStatsMain->asLLSD(false)["regions"][region1_handle_str]; delete gViewerAssetStatsMain; gViewerAssetStatsMain = NULL; ensure("sd[get_texture_non_temp_udp][enqueued] is reset", (0 == sd["get_texture_non_temp_udp"]["enqueued"].asInteger())); ensure("sd[get_gesture_udp][dequeued] is reset", (0 == sd["get_gesture_udp"]["dequeued"].asInteger())); } // Create two global instances and verify no interactions template<> template<> void tst_viewerassetstats_index_object_t::test<5>() { gViewerAssetStatsThread1 = new LLViewerAssetStats(); gViewerAssetStatsMain = new LLViewerAssetStats(); LLViewerAssetStatsFF::set_region_main(region1_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, false); LLSD sd = gViewerAssetStatsThread1->asLLSD(false); ensure("Other collector is empty", is_no_stats_map(sd)); sd = gViewerAssetStatsMain->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd, "regions", "duration", "avatar")); ensure("Correct single-slot LLSD array regions", is_single_slot_array(sd["regions"], region1_handle)); sd = sd["regions"][0]; // Check a few points on the tree for content ensure("sd[get_texture_non_temp_udp][enqueued] is 1", (1 == sd["get_texture_non_temp_udp"]["enqueued"].asInteger())); ensure("sd[get_texture_temp_udp][enqueued] is 0", (0 == sd["get_texture_temp_udp"]["enqueued"].asInteger())); ensure("sd[get_texture_non_temp_http][enqueued] is 0", (0 == sd["get_texture_non_temp_http"]["enqueued"].asInteger())); ensure("sd[get_texture_temp_http][enqueued] is 0", (0 == sd["get_texture_temp_http"]["enqueued"].asInteger())); ensure("sd[get_gesture_udp][dequeued] is 0", (0 == sd["get_gesture_udp"]["dequeued"].asInteger())); // Reset and check zeros... // Reset leaves current region in place gViewerAssetStatsMain->reset(); sd = gViewerAssetStatsMain->asLLSD(false)["regions"][0]; delete gViewerAssetStatsMain; gViewerAssetStatsMain = NULL; delete gViewerAssetStatsThread1; gViewerAssetStatsThread1 = NULL; ensure("sd[get_texture_non_temp_udp][enqueued] is reset", (0 == sd["get_texture_non_temp_udp"]["enqueued"].asInteger())); ensure("sd[get_gesture_udp][dequeued] is reset", (0 == sd["get_gesture_udp"]["dequeued"].asInteger())); } // Check multiple region collection template<> template<> void tst_viewerassetstats_index_object_t::test<6>() { gViewerAssetStatsMain = new LLViewerAssetStats(); LLViewerAssetStatsFF::set_region_main(region1_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::set_region_main(region2_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLSD sd = gViewerAssetStatsMain->asLLSD(false); // std::cout << sd << std::endl; ensure("Correct double-key LLSD map root", is_triple_key_map(sd, "duration", "regions", "avatar")); ensure("Correct double-slot LLSD array regions", is_double_slot_array(sd["regions"], region1_handle, region2_handle)); LLSD sd1 = get_region(sd, region1_handle); LLSD sd2 = get_region(sd, region2_handle); ensure("Region1 is present in results", sd1.isMap()); ensure("Region2 is present in results", sd2.isMap()); // Check a few points on the tree for content ensure_equals("sd1[get_texture_non_temp_udp][enqueued] is 1", sd1["get_texture_non_temp_udp"]["enqueued"].asInteger(), 1); ensure_equals("sd1[get_texture_temp_udp][enqueued] is 0", sd1["get_texture_temp_udp"]["enqueued"].asInteger(), 0); ensure_equals("sd1[get_texture_non_temp_http][enqueued] is 0", sd1["get_texture_non_temp_http"]["enqueued"].asInteger(), 0); ensure_equals("sd1[get_texture_temp_http][enqueued] is 0", sd1["get_texture_temp_http"]["enqueued"].asInteger(), 0); ensure_equals("sd1[get_gesture_udp][dequeued] is 0", sd1["get_gesture_udp"]["dequeued"].asInteger(), 0); // Check a few points on the tree for content ensure("sd2[get_gesture_udp][enqueued] is 4", (4 == sd2["get_gesture_udp"]["enqueued"].asInteger())); ensure("sd2[get_gesture_udp][dequeued] is 0", (0 == sd2["get_gesture_udp"]["dequeued"].asInteger())); ensure("sd2[get_texture_non_temp_udp][enqueued] is 0", (0 == sd2["get_texture_non_temp_udp"]["enqueued"].asInteger())); // Reset and check zeros... // Reset leaves current region in place gViewerAssetStatsMain->reset(); sd = gViewerAssetStatsMain->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd, "regions", "duration", "avatar")); ensure("Correct single-slot LLSD array regions (p2)", is_single_slot_array(sd["regions"], region2_handle)); sd2 = sd["regions"][0]; delete gViewerAssetStatsMain; gViewerAssetStatsMain = NULL; ensure("sd2[get_texture_non_temp_udp][enqueued] is reset", (0 == sd2["get_texture_non_temp_udp"]["enqueued"].asInteger())); ensure("sd2[get_gesture_udp][enqueued] is reset", (0 == sd2["get_gesture_udp"]["enqueued"].asInteger())); } // Check multiple region collection jumping back-and-forth between regions template<> template<> void tst_viewerassetstats_index_object_t::test<7>() { gViewerAssetStatsMain = new LLViewerAssetStats(); LLViewerAssetStatsFF::set_region_main(region1_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::set_region_main(region2_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::set_region_main(region1_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, true, true); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, true, true); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::set_region_main(region2_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_GESTURE, false, false); LLSD sd = gViewerAssetStatsMain->asLLSD(false); ensure("Correct double-key LLSD map root", is_triple_key_map(sd, "duration", "regions", "avatar")); ensure("Correct double-slot LLSD array regions", is_double_slot_array(sd["regions"], region1_handle, region2_handle)); LLSD sd1 = get_region(sd, region1_handle); LLSD sd2 = get_region(sd, region2_handle); ensure("Region1 is present in results", sd1.isMap()); ensure("Region2 is present in results", sd2.isMap()); // Check a few points on the tree for content ensure("sd1[get_texture_non_temp_udp][enqueued] is 1", (1 == sd1["get_texture_non_temp_udp"]["enqueued"].asInteger())); ensure("sd1[get_texture_temp_udp][enqueued] is 0", (0 == sd1["get_texture_temp_udp"]["enqueued"].asInteger())); ensure("sd1[get_texture_non_temp_http][enqueued] is 0", (0 == sd1["get_texture_non_temp_http"]["enqueued"].asInteger())); ensure("sd1[get_texture_temp_http][enqueued] is 1", (1 == sd1["get_texture_temp_http"]["enqueued"].asInteger())); ensure("sd1[get_gesture_udp][dequeued] is 0", (0 == sd1["get_gesture_udp"]["dequeued"].asInteger())); // Check a few points on the tree for content ensure("sd2[get_gesture_udp][enqueued] is 8", (8 == sd2["get_gesture_udp"]["enqueued"].asInteger())); ensure("sd2[get_gesture_udp][dequeued] is 0", (0 == sd2["get_gesture_udp"]["dequeued"].asInteger())); ensure("sd2[get_texture_non_temp_udp][enqueued] is 0", (0 == sd2["get_texture_non_temp_udp"]["enqueued"].asInteger())); // Reset and check zeros... // Reset leaves current region in place gViewerAssetStatsMain->reset(); sd = gViewerAssetStatsMain->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd, "duration", "regions", "avatar")); ensure("Correct single-slot LLSD array regions (p2)", is_single_slot_array(sd["regions"], region2_handle)); sd2 = get_region(sd, region2_handle); ensure("Region2 is present in results", sd2.isMap()); delete gViewerAssetStatsMain; gViewerAssetStatsMain = NULL; ensure_equals("sd2[get_texture_non_temp_udp][enqueued] is reset", sd2["get_texture_non_temp_udp"]["enqueued"].asInteger(), 0); ensure_equals("sd2[get_gesture_udp][enqueued] is reset", sd2["get_gesture_udp"]["enqueued"].asInteger(), 0); } // Non-texture assets ignore transport and persistence flags template<> template<> void tst_viewerassetstats_index_object_t::test<8>() { gViewerAssetStatsThread1 = new LLViewerAssetStats(); gViewerAssetStatsMain = new LLViewerAssetStats(); LLViewerAssetStatsFF::set_region_main(region1_handle); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_TEXTURE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, false, true); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, false, true); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, true, false); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, true, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_BODYPART, true, true); LLViewerAssetStatsFF::record_dequeue_main(LLViewerAssetType::AT_BODYPART, true, true); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_LSL_BYTECODE, false, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_LSL_BYTECODE, false, true); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_LSL_BYTECODE, true, false); LLViewerAssetStatsFF::record_enqueue_main(LLViewerAssetType::AT_LSL_BYTECODE, true, true); LLSD sd = gViewerAssetStatsThread1->asLLSD(false); ensure("Other collector is empty", is_no_stats_map(sd)); sd = gViewerAssetStatsMain->asLLSD(false); ensure("Correct single-key LLSD map root", is_triple_key_map(sd, "regions", "duration", "avatar")); ensure("Correct single-slot LLSD array regions", is_single_slot_array(sd["regions"], region1_handle)); sd = get_region(sd, region1_handle); ensure("Region1 is present in results", sd.isMap()); // Check a few points on the tree for content ensure("sd[get_gesture_udp][enqueued] is 0", (0 == sd["get_gesture_udp"]["enqueued"].asInteger())); ensure("sd[get_gesture_udp][dequeued] is 0", (0 == sd["get_gesture_udp"]["dequeued"].asInteger())); ensure("sd[get_wearable_udp][enqueued] is 4", (4 == sd["get_wearable_udp"]["enqueued"].asInteger())); ensure("sd[get_wearable_udp][dequeued] is 4", (4 == sd["get_wearable_udp"]["dequeued"].asInteger())); ensure("sd[get_other][enqueued] is 4", (4 == sd["get_other"]["enqueued"].asInteger())); ensure("sd[get_other][dequeued] is 0", (0 == sd["get_other"]["dequeued"].asInteger())); // Reset and check zeros... // Reset leaves current region in place gViewerAssetStatsMain->reset(); sd = get_region(gViewerAssetStatsMain->asLLSD(false), region1_handle); ensure("Region1 is present in results", sd.isMap()); delete gViewerAssetStatsMain; gViewerAssetStatsMain = NULL; delete gViewerAssetStatsThread1; gViewerAssetStatsThread1 = NULL; ensure_equals("sd[get_texture_non_temp_udp][enqueued] is reset", sd["get_texture_non_temp_udp"]["enqueued"].asInteger(), 0); ensure_equals("sd[get_gesture_udp][dequeued] is reset", sd["get_gesture_udp"]["dequeued"].asInteger(), 0); } // LLViewerAssetStats::merge() basic functions work template<> template<> void tst_viewerassetstats_index_object_t::test<9>() { LLViewerAssetStats s1; LLViewerAssetStats s2; s1.setRegion(region1_handle); s2.setRegion(region1_handle); s1.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 5000000); s1.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 6000000); s1.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 8000000); s1.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 7000000); s1.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 9000000); s2.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 2000000); s2.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 3000000); s2.recordGetServiced(LLViewerAssetType::AT_TEXTURE, true, true, 4000000); s2.merge(s1); LLSD s2_llsd = get_region(s2.asLLSD(false), region1_handle); ensure("Region1 is present in results", s2_llsd.isMap()); ensure_equals("count after merge", s2_llsd["get_texture_temp_http"]["resp_count"].asInteger(), 8); ensure_approximately_equals("min after merge", s2_llsd["get_texture_temp_http"]["resp_min"].asReal(), 2.0, 22); ensure_approximately_equals("max after merge", s2_llsd["get_texture_temp_http"]["resp_max"].asReal(), 9.0, 22); ensure_approximately_equals("max after merge", s2_llsd["get_texture_temp_http"]["resp_mean"].asReal(), 5.5, 22); } // LLViewerAssetStats::merge() basic functions work without corrupting source data template<> template<> void tst_viewerassetstats_index_object_t::test<10>() { LLViewerAssetStats s1; LLViewerAssetStats s2; s1.setRegion(region1_handle); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 23289200); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 282900); s2.setRegion(region2_handle); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 6500000); s2.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 10000); { s2.merge(s1); LLSD src = s1.asLLSD(false); LLSD dst = s2.asLLSD(false); ensure_equals("merge src has single region", src["regions"].size(), 1); ensure_equals("merge dst has dual regions", dst["regions"].size(), 2); // Remove time stamps, they're a problem src.erase("duration"); src["regions"][0].erase("duration"); dst.erase("duration"); dst["regions"][0].erase("duration"); dst["regions"][1].erase("duration"); LLSD s1_llsd = get_region(src, region1_handle); ensure("Region1 is present in src", s1_llsd.isMap()); LLSD s2_llsd = get_region(dst, region1_handle); ensure("Region1 is present in dst", s2_llsd.isMap()); ensure("result from src is in dst", llsd_equals(s1_llsd, s2_llsd)); } s1.setRegion(region1_handle); s2.setRegion(region1_handle); s1.reset(); s2.reset(); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 23289200); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 282900); s2.setRegion(region1_handle); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 6500000); s2.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 10000); { s2.merge(s1); LLSD src = s1.asLLSD(false); LLSD dst = s2.asLLSD(false); ensure_equals("merge src has single region (p2)", src["regions"].size(), 1); ensure_equals("merge dst has single region (p2)", dst["regions"].size(), 1); // Remove time stamps, they're a problem src.erase("duration"); src["regions"][0].erase("duration"); dst.erase("duration"); dst["regions"][0].erase("duration"); LLSD s1_llsd = get_region(src, region1_handle); ensure("Region1 is present in src", s1_llsd.isMap()); LLSD s2_llsd = get_region(dst, region1_handle); ensure("Region1 is present in dst", s2_llsd.isMap()); ensure_equals("src counts okay (enq)", s1_llsd["get_other"]["enqueued"].asInteger(), 4); ensure_equals("src counts okay (deq)", s1_llsd["get_other"]["dequeued"].asInteger(), 4); ensure_equals("src resp counts okay", s1_llsd["get_other"]["resp_count"].asInteger(), 2); ensure_approximately_equals("src respmin okay", s1_llsd["get_other"]["resp_min"].asReal(), 0.2829, 20); ensure_approximately_equals("src respmax okay", s1_llsd["get_other"]["resp_max"].asReal(), 23.2892, 20); ensure_equals("dst counts okay (enq)", s2_llsd["get_other"]["enqueued"].asInteger(), 12); ensure_equals("src counts okay (deq)", s2_llsd["get_other"]["dequeued"].asInteger(), 11); ensure_equals("dst resp counts okay", s2_llsd["get_other"]["resp_count"].asInteger(), 4); ensure_approximately_equals("dst respmin okay", s2_llsd["get_other"]["resp_min"].asReal(), 0.010, 20); ensure_approximately_equals("dst respmax okay", s2_llsd["get_other"]["resp_max"].asReal(), 23.2892, 20); } } // Maximum merges are interesting when one side contributes nothing template<> template<> void tst_viewerassetstats_index_object_t::test<11>() { LLViewerAssetStats s1; LLViewerAssetStats s2; s1.setRegion(region1_handle); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); // Want to test negative numbers here but have to work in U64 s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 0); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 0); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 0); s2.setRegion(region1_handle); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); { s2.merge(s1); LLSD src = s1.asLLSD(false); LLSD dst = s2.asLLSD(false); ensure_equals("merge src has single region", src["regions"].size(), 1); ensure_equals("merge dst has single region", dst["regions"].size(), 1); // Remove time stamps, they're a problem src.erase("duration"); src["regions"][0].erase("duration"); dst.erase("duration"); dst["regions"][0].erase("duration"); LLSD s2_llsd = get_region(dst, region1_handle); ensure("Region1 is present in dst", s2_llsd.isMap()); ensure_equals("dst counts come from src only", s2_llsd["get_other"]["resp_count"].asInteger(), 3); ensure_approximately_equals("dst maximum with count 0 does not contribute to merged maximum", s2_llsd["get_other"]["resp_max"].asReal(), F64(0.0), 20); } // Other way around s1.setRegion(region1_handle); s2.setRegion(region1_handle); s1.reset(); s2.reset(); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); // Want to test negative numbers here but have to work in U64 s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 0); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 0); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 0); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); { s1.merge(s2); LLSD src = s2.asLLSD(false); LLSD dst = s1.asLLSD(false); ensure_equals("merge src has single region", src["regions"].size(), 1); ensure_equals("merge dst has single region", dst["regions"].size(), 1); // Remove time stamps, they're a problem src.erase("duration"); src["regions"][0].erase("duration"); dst.erase("duration"); dst["regions"][0].erase("duration"); LLSD s2_llsd = get_region(dst, region1_handle); ensure("Region1 is present in dst", s2_llsd.isMap()); ensure_equals("dst counts come from src only (flipped)", s2_llsd["get_other"]["resp_count"].asInteger(), 3); ensure_approximately_equals("dst maximum with count 0 does not contribute to merged maximum (flipped)", s2_llsd["get_other"]["resp_max"].asReal(), F64(0.0), 20); } } // Minimum merges are interesting when one side contributes nothing template<> template<> void tst_viewerassetstats_index_object_t::test<12>() { LLViewerAssetStats s1; LLViewerAssetStats s2; s1.setRegion(region1_handle); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 3800000); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 2700000); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 2900000); s2.setRegion(region1_handle); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); { s2.merge(s1); LLSD src = s1.asLLSD(false); LLSD dst = s2.asLLSD(false); ensure_equals("merge src has single region", src["regions"].size(), 1); ensure_equals("merge dst has single region", dst["regions"].size(), 1); // Remove time stamps, they're a problem src.erase("duration"); src["regions"][0].erase("duration"); dst.erase("duration"); dst["regions"][0].erase("duration"); LLSD s2_llsd = get_region(dst, region1_handle); ensure("Region1 is present in dst", s2_llsd.isMap()); ensure_equals("dst counts come from src only", s2_llsd["get_other"]["resp_count"].asInteger(), 3); ensure_approximately_equals("dst minimum with count 0 does not contribute to merged minimum", s2_llsd["get_other"]["resp_min"].asReal(), F64(2.7), 20); } // Other way around s1.setRegion(region1_handle); s2.setRegion(region1_handle); s1.reset(); s2.reset(); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 3800000); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 2700000); s1.recordGetServiced(LLViewerAssetType::AT_LSL_BYTECODE, true, true, 2900000); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetEnqueued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); s2.recordGetDequeued(LLViewerAssetType::AT_LSL_BYTECODE, true, true); { s1.merge(s2); LLSD src = s2.asLLSD(false); LLSD dst = s1.asLLSD(false); ensure_equals("merge src has single region", src["regions"].size(), 1); ensure_equals("merge dst has single region", dst["regions"].size(), 1); // Remove time stamps, they're a problem src.erase("duration"); src["regions"][0].erase("duration"); dst.erase("duration"); dst["regions"][0].erase("duration"); LLSD s2_llsd = get_region(dst, region1_handle); ensure("Region1 is present in dst", s2_llsd.isMap()); ensure_equals("dst counts come from src only (flipped)", s2_llsd["get_other"]["resp_count"].asInteger(), 3); ensure_approximately_equals("dst minimum with count 0 does not contribute to merged minimum (flipped)", s2_llsd["get_other"]["resp_min"].asReal(), F64(2.7), 20); } } }