GUIScene: Clear depth buffer + replace deprecated clearZBuffer calls

[dragonfireclient.git] / src / emerge.cpp

/*
Minetest
Copyright (C) 2010-2013 celeron55, Perttu Ahola <celeron55@gmail.com>
Copyright (C) 2010-2013 kwolekr, Ryan Kwolek <kwolekr@minetest.net>

This program 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; either version 2.1 of the License, or
(at your option) any later version.

This program 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 program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/


#include "emerge.h"

#include <iostream>
#include <queue>

#include "util/container.h"
#include "util/thread.h"
#include "threading/event.h"

#include "config.h"
#include "constants.h"
#include "environment.h"
#include "log.h"
#include "map.h"
#include "mapblock.h"
#include "mapgen/mg_biome.h"
#include "mapgen/mg_ore.h"
#include "mapgen/mg_decoration.h"
#include "mapgen/mg_schematic.h"
#include "nodedef.h"
#include "profiler.h"
#include "scripting_server.h"
#include "server.h"
#include "settings.h"
#include "voxel.h"

class EmergeThread : public Thread {
public:
        bool enable_mapgen_debug_info;
        int id;

        EmergeThread(Server *server, int ethreadid);
        ~EmergeThread() = default;

        void *run();
        void signal();

        // Requires queue mutex held
        bool pushBlock(const v3s16 &pos);

        void cancelPendingItems();

        static void runCompletionCallbacks(
                const v3s16 &pos, EmergeAction action,
                const EmergeCallbackList &callbacks);

private:
        Server *m_server;
        ServerMap *m_map;
        EmergeManager *m_emerge;
        Mapgen *m_mapgen;

        Event m_queue_event;
        std::queue<v3s16> m_block_queue;

        bool popBlockEmerge(v3s16 *pos, BlockEmergeData *bedata);

        EmergeAction getBlockOrStartGen(
                const v3s16 &pos, bool allow_gen, MapBlock **block, BlockMakeData *data);
        MapBlock *finishGen(v3s16 pos, BlockMakeData *bmdata,
                std::map<v3s16, MapBlock *> *modified_blocks);

        friend class EmergeManager;
};

class MapEditEventAreaIgnorer
{
public:
        MapEditEventAreaIgnorer(VoxelArea *ignorevariable, const VoxelArea &a):
                m_ignorevariable(ignorevariable)
        {
                if(m_ignorevariable->getVolume() == 0)
                        *m_ignorevariable = a;
                else
                        m_ignorevariable = NULL;
        }

        ~MapEditEventAreaIgnorer()
        {
                if(m_ignorevariable)
                {
                        assert(m_ignorevariable->getVolume() != 0);
                        *m_ignorevariable = VoxelArea();
                }
        }

private:
        VoxelArea *m_ignorevariable;
};

EmergeParams::~EmergeParams()
{
        infostream << "EmergeParams: destroying " << this << std::endl;
        // Delete everything that was cloned on creation of EmergeParams
        delete biomemgr;
        delete oremgr;
        delete decomgr;
        delete schemmgr;
}

EmergeParams::EmergeParams(EmergeManager *parent, const BiomeManager *biomemgr,
        const OreManager *oremgr, const DecorationManager *decomgr,
        const SchematicManager *schemmgr) :
        ndef(parent->ndef),
        enable_mapgen_debug_info(parent->enable_mapgen_debug_info),
        gen_notify_on(parent->gen_notify_on),
        gen_notify_on_deco_ids(&parent->gen_notify_on_deco_ids),
        biomemgr(biomemgr->clone()), oremgr(oremgr->clone()),
        decomgr(decomgr->clone()), schemmgr(schemmgr->clone())
{
}

////
//// EmergeManager
////

EmergeManager::EmergeManager(Server *server)
{
        this->ndef      = server->getNodeDefManager();
        this->biomemgr  = new BiomeManager(server);
        this->oremgr    = new OreManager(server);
        this->decomgr   = new DecorationManager(server);
        this->schemmgr  = new SchematicManager(server);

        // Note that accesses to this variable are not synchronized.
        // This is because the *only* thread ever starting or stopping
        // EmergeThreads should be the ServerThread.

        enable_mapgen_debug_info = g_settings->getBool("enable_mapgen_debug_info");

        s16 nthreads = 1;
        g_settings->getS16NoEx("num_emerge_threads", nthreads);
        // If automatic, leave a proc for the main thread and one for
        // some other misc thread
        if (nthreads == 0)
                nthreads = Thread::getNumberOfProcessors() - 2;
        if (nthreads < 1)
                nthreads = 1;

        m_qlimit_total = g_settings->getU16("emergequeue_limit_total");
        // FIXME: these fallback values are probably not good
        if (!g_settings->getU16NoEx("emergequeue_limit_diskonly", m_qlimit_diskonly))
                m_qlimit_diskonly = nthreads * 5 + 1;
        if (!g_settings->getU16NoEx("emergequeue_limit_generate", m_qlimit_generate))
                m_qlimit_generate = nthreads + 1;

        // don't trust user input for something very important like this
        if (m_qlimit_total < 1)
                m_qlimit_total = 1;
        if (m_qlimit_diskonly < 1)
                m_qlimit_diskonly = 1;
        if (m_qlimit_generate < 1)
                m_qlimit_generate = 1;

        for (s16 i = 0; i < nthreads; i++)
                m_threads.push_back(new EmergeThread(server, i));

        infostream << "EmergeManager: using " << nthreads << " threads" << std::endl;
}


EmergeManager::~EmergeManager()
{
        for (u32 i = 0; i != m_threads.size(); i++) {
                EmergeThread *thread = m_threads[i];

                if (m_threads_active) {
                        thread->stop();
                        thread->signal();
                        thread->wait();
                }

                delete thread;

                // Mapgen init might not be finished if there is an error during startup.
                if (m_mapgens.size() > i)
                        delete m_mapgens[i];
        }

        delete biomemgr;
        delete oremgr;
        delete decomgr;
        delete schemmgr;
}


BiomeManager *EmergeManager::getWritableBiomeManager()
{
        FATAL_ERROR_IF(!m_mapgens.empty(),
                "Writable managers can only be returned before mapgen init");
        return biomemgr;
}

OreManager *EmergeManager::getWritableOreManager()
{
        FATAL_ERROR_IF(!m_mapgens.empty(),
                "Writable managers can only be returned before mapgen init");
        return oremgr;
}

DecorationManager *EmergeManager::getWritableDecorationManager()
{
        FATAL_ERROR_IF(!m_mapgens.empty(),
                "Writable managers can only be returned before mapgen init");
        return decomgr;
}

SchematicManager *EmergeManager::getWritableSchematicManager()
{
        FATAL_ERROR_IF(!m_mapgens.empty(),
                "Writable managers can only be returned before mapgen init");
        return schemmgr;
}


void EmergeManager::initMapgens(MapgenParams *params)
{
        FATAL_ERROR_IF(!m_mapgens.empty(), "Mapgen already initialised.");

        mgparams = params;

        for (u32 i = 0; i != m_threads.size(); i++) {
                EmergeParams *p = new EmergeParams(
                        this, biomemgr, oremgr, decomgr, schemmgr);
                infostream << "EmergeManager: Created params " << p
                        << " for thread " << i << std::endl;
                m_mapgens.push_back(Mapgen::createMapgen(params->mgtype, params, p));
        }
}


Mapgen *EmergeManager::getCurrentMapgen()
{
        if (!m_threads_active)
                return nullptr;

        for (u32 i = 0; i != m_threads.size(); i++) {
                EmergeThread *t = m_threads[i];
                if (t->isRunning() && t->isCurrentThread())
                        return t->m_mapgen;
        }

        return nullptr;
}


void EmergeManager::startThreads()
{
        if (m_threads_active)
                return;

        for (u32 i = 0; i != m_threads.size(); i++)
                m_threads[i]->start();

        m_threads_active = true;
}


void EmergeManager::stopThreads()
{
        if (!m_threads_active)
                return;

        // Request thread stop in parallel
        for (u32 i = 0; i != m_threads.size(); i++) {
                m_threads[i]->stop();
                m_threads[i]->signal();
        }

        // Then do the waiting for each
        for (u32 i = 0; i != m_threads.size(); i++)
                m_threads[i]->wait();

        m_threads_active = false;
}


bool EmergeManager::isRunning()
{
        return m_threads_active;
}


bool EmergeManager::enqueueBlockEmerge(
        session_t peer_id,
        v3s16 blockpos,
        bool allow_generate,
        bool ignore_queue_limits)
{
        u16 flags = 0;
        if (allow_generate)
                flags |= BLOCK_EMERGE_ALLOW_GEN;
        if (ignore_queue_limits)
                flags |= BLOCK_EMERGE_FORCE_QUEUE;

        return enqueueBlockEmergeEx(blockpos, peer_id, flags, NULL, NULL);
}


bool EmergeManager::enqueueBlockEmergeEx(
        v3s16 blockpos,
        session_t peer_id,
        u16 flags,
        EmergeCompletionCallback callback,
        void *callback_param)
{
        EmergeThread *thread = NULL;
        bool entry_already_exists = false;

        {
                MutexAutoLock queuelock(m_queue_mutex);

                if (!pushBlockEmergeData(blockpos, peer_id, flags,
                                callback, callback_param, &entry_already_exists))
                        return false;

                if (entry_already_exists)
                        return true;

                thread = getOptimalThread();
                thread->pushBlock(blockpos);
        }

        thread->signal();

        return true;
}


//
// Mapgen-related helper functions
//


// TODO(hmmmm): Move this to ServerMap
v3s16 EmergeManager::getContainingChunk(v3s16 blockpos)
{
        return getContainingChunk(blockpos, mgparams->chunksize);
}

// TODO(hmmmm): Move this to ServerMap
v3s16 EmergeManager::getContainingChunk(v3s16 blockpos, s16 chunksize)
{
        s16 coff = -chunksize / 2;
        v3s16 chunk_offset(coff, coff, coff);

        return getContainerPos(blockpos - chunk_offset, chunksize)
                * chunksize + chunk_offset;
}


int EmergeManager::getSpawnLevelAtPoint(v2s16 p)
{
        if (m_mapgens.empty() || !m_mapgens[0]) {
                errorstream << "EmergeManager: getSpawnLevelAtPoint() called"
                        " before mapgen init" << std::endl;
                return 0;
        }

        return m_mapgens[0]->getSpawnLevelAtPoint(p);
}


int EmergeManager::getGroundLevelAtPoint(v2s16 p)
{
        if (m_mapgens.empty() || !m_mapgens[0]) {
                errorstream << "EmergeManager: getGroundLevelAtPoint() called"
                        " before mapgen init" << std::endl;
                return 0;
        }

        return m_mapgens[0]->getGroundLevelAtPoint(p);
}

// TODO(hmmmm): Move this to ServerMap
bool EmergeManager::isBlockUnderground(v3s16 blockpos)
{
        // Use a simple heuristic
        return blockpos.Y * (MAP_BLOCKSIZE + 1) <= mgparams->water_level;
}

bool EmergeManager::pushBlockEmergeData(
        v3s16 pos,
        u16 peer_requested,
        u16 flags,
        EmergeCompletionCallback callback,
        void *callback_param,
        bool *entry_already_exists)
{
        u16 &count_peer = m_peer_queue_count[peer_requested];

        if ((flags & BLOCK_EMERGE_FORCE_QUEUE) == 0) {
                if (m_blocks_enqueued.size() >= m_qlimit_total)
                        return false;

                if (peer_requested != PEER_ID_INEXISTENT) {
                        u16 qlimit_peer = (flags & BLOCK_EMERGE_ALLOW_GEN) ?
                                m_qlimit_generate : m_qlimit_diskonly;
                        if (count_peer >= qlimit_peer)
                                return false;
                } else {
                        // limit block enqueue requests for active blocks to 1/2 of total
                        if (count_peer * 2 >= m_qlimit_total)
                                return false;
                }
        }

        std::pair<std::map<v3s16, BlockEmergeData>::iterator, bool> findres;
        findres = m_blocks_enqueued.insert(std::make_pair(pos, BlockEmergeData()));

        BlockEmergeData &bedata = findres.first->second;
        *entry_already_exists   = !findres.second;

        if (callback)
                bedata.callbacks.emplace_back(callback, callback_param);

        if (*entry_already_exists) {
                bedata.flags |= flags;
        } else {
                bedata.flags = flags;
                bedata.peer_requested = peer_requested;

                count_peer++;
        }

        return true;
}


bool EmergeManager::popBlockEmergeData(v3s16 pos, BlockEmergeData *bedata)
{
        std::map<v3s16, BlockEmergeData>::iterator it;
        std::unordered_map<u16, u16>::iterator it2;

        it = m_blocks_enqueued.find(pos);
        if (it == m_blocks_enqueued.end())
                return false;

        *bedata = it->second;

        it2 = m_peer_queue_count.find(bedata->peer_requested);
        if (it2 == m_peer_queue_count.end())
                return false;

        u16 &count_peer = it2->second;
        assert(count_peer != 0);
        count_peer--;

        m_blocks_enqueued.erase(it);

        return true;
}


EmergeThread *EmergeManager::getOptimalThread()
{
        size_t nthreads = m_threads.size();

        FATAL_ERROR_IF(nthreads == 0, "No emerge threads!");

        size_t index = 0;
        size_t nitems_lowest = m_threads[0]->m_block_queue.size();

        for (size_t i = 1; i < nthreads; i++) {
                size_t nitems = m_threads[i]->m_block_queue.size();
                if (nitems < nitems_lowest) {
                        index = i;
                        nitems_lowest = nitems;
                }
        }

        return m_threads[index];
}


////
//// EmergeThread
////

EmergeThread::EmergeThread(Server *server, int ethreadid) :
        enable_mapgen_debug_info(false),
        id(ethreadid),
        m_server(server),
        m_map(NULL),
        m_emerge(NULL),
        m_mapgen(NULL)
{
        m_name = "Emerge-" + itos(ethreadid);
}


void EmergeThread::signal()
{
        m_queue_event.signal();
}


bool EmergeThread::pushBlock(const v3s16 &pos)
{
        m_block_queue.push(pos);
        return true;
}


void EmergeThread::cancelPendingItems()
{
        MutexAutoLock queuelock(m_emerge->m_queue_mutex);

        while (!m_block_queue.empty()) {
                BlockEmergeData bedata;
                v3s16 pos;

                pos = m_block_queue.front();
                m_block_queue.pop();

                m_emerge->popBlockEmergeData(pos, &bedata);

                runCompletionCallbacks(pos, EMERGE_CANCELLED, bedata.callbacks);
        }
}


void EmergeThread::runCompletionCallbacks(const v3s16 &pos, EmergeAction action,
        const EmergeCallbackList &callbacks)
{
        for (size_t i = 0; i != callbacks.size(); i++) {
                EmergeCompletionCallback callback;
                void *param;

                callback = callbacks[i].first;
                param    = callbacks[i].second;

                callback(pos, action, param);
        }
}


bool EmergeThread::popBlockEmerge(v3s16 *pos, BlockEmergeData *bedata)
{
        MutexAutoLock queuelock(m_emerge->m_queue_mutex);

        if (m_block_queue.empty())
                return false;

        *pos = m_block_queue.front();
        m_block_queue.pop();

        m_emerge->popBlockEmergeData(*pos, bedata);

        return true;
}


EmergeAction EmergeThread::getBlockOrStartGen(
        const v3s16 &pos, bool allow_gen, MapBlock **block, BlockMakeData *bmdata)
{
        MutexAutoLock envlock(m_server->m_env_mutex);

        // 1). Attempt to fetch block from memory
        *block = m_map->getBlockNoCreateNoEx(pos);
        if (*block && !(*block)->isDummy()) {
                if ((*block)->isGenerated())
                        return EMERGE_FROM_MEMORY;
        } else {
                // 2). Attempt to load block from disk if it was not in the memory
                *block = m_map->loadBlock(pos);
                if (*block && (*block)->isGenerated())
                        return EMERGE_FROM_DISK;
        }

        // 3). Attempt to start generation
        if (allow_gen && m_map->initBlockMake(pos, bmdata))
                return EMERGE_GENERATED;

        // All attempts failed; cancel this block emerge
        return EMERGE_CANCELLED;
}


MapBlock *EmergeThread::finishGen(v3s16 pos, BlockMakeData *bmdata,
        std::map<v3s16, MapBlock *> *modified_blocks)
{
        MutexAutoLock envlock(m_server->m_env_mutex);
        ScopeProfiler sp(g_profiler,
                "EmergeThread: after Mapgen::makeChunk", SPT_AVG);

        /*
                Perform post-processing on blocks (invalidate lighting, queue liquid
                transforms, etc.) to finish block make
        */
        m_map->finishBlockMake(bmdata, modified_blocks);

        MapBlock *block = m_map->getBlockNoCreateNoEx(pos);
        if (!block) {
                errorstream << "EmergeThread::finishGen: Couldn't grab block we "
                        "just generated: " << PP(pos) << std::endl;
                return NULL;
        }

        v3s16 minp = bmdata->blockpos_min * MAP_BLOCKSIZE;
        v3s16 maxp = bmdata->blockpos_max * MAP_BLOCKSIZE +
                                 v3s16(1,1,1) * (MAP_BLOCKSIZE - 1);

        // Ignore map edit events, they will not need to be sent
        // to anybody because the block hasn't been sent to anybody
        MapEditEventAreaIgnorer ign(
                &m_server->m_ignore_map_edit_events_area,
                VoxelArea(minp, maxp));

        /*
                Run Lua on_generated callbacks
        */
        try {
                m_server->getScriptIface()->environment_OnGenerated(
                        minp, maxp, m_mapgen->blockseed);
        } catch (LuaError &e) {
                m_server->setAsyncFatalError("Lua: finishGen" + std::string(e.what()));
        }

        /*
                Clear generate notifier events
        */
        m_mapgen->gennotify.clearEvents();

        EMERGE_DBG_OUT("ended up with: " << analyze_block(block));

        /*
                Activate the block
        */
        m_server->m_env->activateBlock(block, 0);

        return block;
}


void *EmergeThread::run()
{
        BEGIN_DEBUG_EXCEPTION_HANDLER

        v3s16 pos;

        m_map    = (ServerMap *)&(m_server->m_env->getMap());
        m_emerge = m_server->m_emerge;
        m_mapgen = m_emerge->m_mapgens[id];
        enable_mapgen_debug_info = m_emerge->enable_mapgen_debug_info;

        try {
        while (!stopRequested()) {
                std::map<v3s16, MapBlock *> modified_blocks;
                BlockEmergeData bedata;
                BlockMakeData bmdata;
                EmergeAction action;
                MapBlock *block;

                if (!popBlockEmerge(&pos, &bedata)) {
                        m_queue_event.wait();
                        continue;
                }

                if (blockpos_over_max_limit(pos))
                        continue;

                bool allow_gen = bedata.flags & BLOCK_EMERGE_ALLOW_GEN;
                EMERGE_DBG_OUT("pos=" PP(pos) " allow_gen=" << allow_gen);

                action = getBlockOrStartGen(pos, allow_gen, &block, &bmdata);
                if (action == EMERGE_GENERATED) {
                        {
                                ScopeProfiler sp(g_profiler,
                                        "EmergeThread: Mapgen::makeChunk", SPT_AVG);

                                m_mapgen->makeChunk(&bmdata);
                        }

                        block = finishGen(pos, &bmdata, &modified_blocks);
                }

                runCompletionCallbacks(pos, action, bedata.callbacks);

                if (block)
                        modified_blocks[pos] = block;

                if (!modified_blocks.empty())
                        m_server->SetBlocksNotSent(modified_blocks);
        }
        } catch (VersionMismatchException &e) {
                std::ostringstream err;
                err << "World data version mismatch in MapBlock " << PP(pos) << std::endl
                        << "----" << std::endl
                        << "\"" << e.what() << "\"" << std::endl
                        << "See debug.txt." << std::endl
                        << "World probably saved by a newer version of " PROJECT_NAME_C "."
                        << std::endl;
                m_server->setAsyncFatalError(err.str());
        } catch (SerializationError &e) {
                std::ostringstream err;
                err << "Invalid data in MapBlock " << PP(pos) << std::endl
                        << "----" << std::endl
                        << "\"" << e.what() << "\"" << std::endl
                        << "See debug.txt." << std::endl
                        << "You can ignore this using [ignore_world_load_errors = true]."
                        << std::endl;
                m_server->setAsyncFatalError(err.str());
        }

        END_DEBUG_EXCEPTION_HANDLER
        return NULL;
}