(Re)spawn players within 'mapgen_limit'

Previously, findSpawnPos() did not take the 'mapgen_limit' setting into account,
a small limit often resulted in a spawn out in the void.
Use the recently added 'calcMapgenEdges()' to get max spawn range through a new
mapgenParams function 'getSpawnRangeMax()'.

Previously, when a player respawned into a world, 'objectpos_over_limit()' was
used as a check, which was inaccurate.
Use the recently added 'saoPosOverLimit()' to get exact mapgen edges.

Also fix default value of 'm_sao_limit_min'.
This commit is contained in:
paramat 2017-06-04 22:28:32 +01:00 committed by paramat
parent a9f02ab51c
commit 842acbfad2
4 changed files with 33 additions and 13 deletions

@ -1053,12 +1053,13 @@ void MapgenParams::writeParams(Settings *settings) const
// 'mapgen_limit'), and corresponding exact limits for SAO entities. // 'mapgen_limit'), and corresponding exact limits for SAO entities.
void MapgenParams::calcMapgenEdges() void MapgenParams::calcMapgenEdges()
{ {
if (m_mapgen_edges_calculated)
return;
// Central chunk offset, in blocks // Central chunk offset, in blocks
s16 ccoff_b = -chunksize / 2; s16 ccoff_b = -chunksize / 2;
// Chunksize, in nodes // Chunksize, in nodes
s32 csize_n = chunksize * MAP_BLOCKSIZE; s32 csize_n = chunksize * MAP_BLOCKSIZE;
// Minp/maxp of central chunk, in nodes // Minp/maxp of central chunk, in nodes
s16 ccmin = ccoff_b * MAP_BLOCKSIZE; s16 ccmin = ccoff_b * MAP_BLOCKSIZE;
s16 ccmax = ccmin + csize_n - 1; s16 ccmax = ccmin + csize_n - 1;
@ -1077,21 +1078,21 @@ void MapgenParams::calcMapgenEdges()
s16 numcmin = MYMAX((ccfmin - mapgen_limit_min) / csize_n, 0); s16 numcmin = MYMAX((ccfmin - mapgen_limit_min) / csize_n, 0);
s16 numcmax = MYMAX((mapgen_limit_max - ccfmax) / csize_n, 0); s16 numcmax = MYMAX((mapgen_limit_max - ccfmax) / csize_n, 0);
// Mapgen edges, in nodes // Mapgen edges, in nodes
// These values may be useful later as additional class members mapgen_edge_min = ccmin - numcmin * csize_n;
s16 mapgen_edge_min = ccmin - numcmin * csize_n; mapgen_edge_max = ccmax + numcmax * csize_n;
s16 mapgen_edge_max = ccmax + numcmax * csize_n;
// SAO position limits, in Irrlicht units // SAO position limits, in Irrlicht units
m_sao_limit_min = mapgen_edge_min * BS - 3.0f; m_sao_limit_min = mapgen_edge_min * BS - 3.0f;
m_sao_limit_max = mapgen_edge_max * BS + 3.0f; m_sao_limit_max = mapgen_edge_max * BS + 3.0f;
m_mapgen_edges_calculated = true;
} }
bool MapgenParams::saoPosOverLimit(const v3f &p) bool MapgenParams::saoPosOverLimit(const v3f &p)
{ {
if (!m_sao_limit_calculated) { if (!m_mapgen_edges_calculated)
calcMapgenEdges(); calcMapgenEdges();
m_sao_limit_calculated = true;
}
return p.X < m_sao_limit_min || return p.X < m_sao_limit_min ||
p.X > m_sao_limit_max || p.X > m_sao_limit_max ||
p.Y < m_sao_limit_min || p.Y < m_sao_limit_min ||
@ -1099,3 +1100,11 @@ bool MapgenParams::saoPosOverLimit(const v3f &p)
p.Z < m_sao_limit_min || p.Z < m_sao_limit_min ||
p.Z > m_sao_limit_max; p.Z > m_sao_limit_max;
} }
s32 MapgenParams::getSpawnRangeMax()
{
calcMapgenEdges();
return MYMIN(-mapgen_edge_min, mapgen_edge_max);
}

@ -131,6 +131,9 @@ struct MapgenParams {
BiomeParams *bparams; BiomeParams *bparams;
s16 mapgen_edge_min;
s16 mapgen_edge_max;
MapgenParams() : MapgenParams() :
mgtype(MAPGEN_DEFAULT), mgtype(MAPGEN_DEFAULT),
chunksize(5), chunksize(5),
@ -139,9 +142,12 @@ struct MapgenParams {
mapgen_limit(MAX_MAP_GENERATION_LIMIT), mapgen_limit(MAX_MAP_GENERATION_LIMIT),
flags(MG_CAVES | MG_LIGHT | MG_DECORATIONS), flags(MG_CAVES | MG_LIGHT | MG_DECORATIONS),
bparams(NULL), bparams(NULL),
m_sao_limit_min(MAX_MAP_GENERATION_LIMIT * BS),
mapgen_edge_min(-MAX_MAP_GENERATION_LIMIT),
mapgen_edge_max(MAX_MAP_GENERATION_LIMIT),
m_sao_limit_min(-MAX_MAP_GENERATION_LIMIT * BS),
m_sao_limit_max(MAX_MAP_GENERATION_LIMIT * BS), m_sao_limit_max(MAX_MAP_GENERATION_LIMIT * BS),
m_sao_limit_calculated(false) m_mapgen_edges_calculated(false)
{ {
} }
@ -151,12 +157,14 @@ struct MapgenParams {
virtual void writeParams(Settings *settings) const; virtual void writeParams(Settings *settings) const;
bool saoPosOverLimit(const v3f &p); bool saoPosOverLimit(const v3f &p);
s32 getSpawnRangeMax();
private: private:
void calcMapgenEdges(); void calcMapgenEdges();
float m_sao_limit_min; float m_sao_limit_min;
float m_sao_limit_max; float m_sao_limit_max;
bool m_sao_limit_calculated; bool m_mapgen_edges_calculated;
}; };

@ -3523,10 +3523,12 @@ v3f Server::findSpawnPos()
} }
bool is_good = false; bool is_good = false;
// Limit spawn range to mapgen edges (determined by 'mapgen_limit')
s32 range_max = map.getMapgenParams()->getSpawnRangeMax();
// Try to find a good place a few times // Try to find a good place a few times
for(s32 i = 0; i < 4000 && !is_good; i++) { for(s32 i = 0; i < 4000 && !is_good; i++) {
s32 range = 1 + i; s32 range = MYMIN(1 + i, range_max);
// We're going to try to throw the player to this position // We're going to try to throw the player to this position
v2s16 nodepos2d = v2s16( v2s16 nodepos2d = v2s16(
-range + (myrand() % (range * 2)), -range + (myrand() % (range * 2)),

@ -579,7 +579,8 @@ PlayerSAO *ServerEnvironment::loadPlayer(RemotePlayer *player, bool *new_player,
// If the player exists, ensure that they respawn inside legal bounds // If the player exists, ensure that they respawn inside legal bounds
// This fixes an assert crash when the player can't be added // This fixes an assert crash when the player can't be added
// to the environment // to the environment
if (objectpos_over_limit(playersao->getBasePosition())) { ServerMap &map = getServerMap();
if (map.getMapgenParams()->saoPosOverLimit(playersao->getBasePosition())) {
actionstream << "Respawn position for player \"" actionstream << "Respawn position for player \""
<< player->getName() << "\" outside limits, resetting" << std::endl; << player->getName() << "\" outside limits, resetting" << std::endl;
playersao->setBasePosition(m_server->findSpawnPos()); playersao->setBasePosition(m_server->findSpawnPos());