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Mapgen: Combine generateBiomes, dustTopNodes, and generateCaves
This commit condenses the above methods into a single implementation used by V7, V5, Flat, Fractal, and Valleys mapgens and introduces MapgenBasic.
This commit is contained in:
kwolekr
parent
76f4856479
commit
87bc39dca7
12 changed files with 316 additions and 1161 deletions
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@ -65,7 +65,7 @@ static FlagDesc flagdesc_mapgen_valleys[] = {
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MapgenValleys::MapgenValleys(int mapgenid, MapgenParams *params, EmergeManager *emerge)
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: Mapgen(mapgenid, params, emerge)
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: MapgenBasic(mapgenid, params, emerge)
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{
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this->m_emerge = emerge;
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this->bmgr = emerge->biomemgr;
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@ -302,7 +302,7 @@ void MapgenValleys::makeChunk(BlockMakeData *data)
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// Cave creation.
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if (flags & MG_CAVES)
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generateCaves(stone_surface_max_y);
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generateCaves(stone_surface_max_y, large_cave_depth);
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// Dungeon creation
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if ((flags & MG_DUNGEONS) && node_max.Y < 50 && (stone_surface_max_y >= node_min.Y)) {
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@ -692,166 +692,7 @@ int MapgenValleys::generateTerrain()
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return surface_max_y;
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}
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MgStoneType MapgenValleys::generateBiomes()
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{
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v3s16 em = vm->m_area.getExtent();
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u32 index = 0;
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MgStoneType stone_type = STONE;
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for (s16 z = node_min.Z; z <= node_max.Z; z++)
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for (s16 x = node_min.X; x <= node_max.X; x++, index++) {
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Biome *biome = NULL;
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u16 depth_top = 0;
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u16 base_filler = 0;
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u16 depth_water_top = 0;
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u32 vi = vm->m_area.index(x, node_max.Y, z);
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// Check node at base of mapchunk above, either a node of a previously
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// generated mapchunk or if not, a node of overgenerated base terrain.
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content_t c_above = vm->m_data[vi + em.X].getContent();
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bool air_above = c_above == CONTENT_AIR;
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bool water_above = (c_above == c_water_source || c_above == c_river_water_source);
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// If there is air or water above enable top/filler placement, otherwise force
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// nplaced to stone level by setting a number exceeding any possible filler depth.
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u16 nplaced = (air_above || water_above) ? 0 : U16_MAX;
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for (s16 y = node_max.Y; y >= node_min.Y; y--) {
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content_t c = vm->m_data[vi].getContent();
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// Biome is recalculated each time an upper surface is detected while
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// working down a column. The selected biome then remains in effect for
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// all nodes below until the next surface and biome recalculation.
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// Biome is recalculated:
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// 1. At the surface of stone below air or water.
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// 2. At the surface of water below air.
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// 3. When stone or water is detected but biome has not yet been calculated.
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if ((c == c_stone && (air_above || water_above || !biome))
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|| ((c == c_water_source || c == c_river_water_source)
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&& (air_above || !biome))) {
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// Both heat and humidity have already been adjusted for altitude.
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biome = biomegen->getBiomeAtIndex(index, y);
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depth_top = biome->depth_top;
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base_filler = MYMAX(depth_top
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+ biome->depth_filler
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+ noise_filler_depth->result[index], 0.f);
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depth_water_top = biome->depth_water_top;
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// Detect stone type for dungeons during every biome calculation.
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// This is more efficient than detecting per-node and will not
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// miss any desert stone or sandstone biomes.
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if (biome->c_stone == c_desert_stone)
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stone_type = DESERT_STONE;
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else if (biome->c_stone == c_sandstone)
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stone_type = SANDSTONE;
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}
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if (c == c_stone) {
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content_t c_below = vm->m_data[vi - em.X].getContent();
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// If the node below isn't solid, make this node stone, so that
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// any top/filler nodes above are structurally supported.
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// This is done by aborting the cycle of top/filler placement
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// immediately by forcing nplaced to stone level.
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if (c_below == CONTENT_AIR
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|| c_below == c_water_source
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|| c_below == c_river_water_source)
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nplaced = U16_MAX;
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if (nplaced < depth_top) {
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vm->m_data[vi] = MapNode(biome->c_top);
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nplaced++;
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} else if (nplaced < base_filler) {
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vm->m_data[vi] = MapNode(biome->c_filler);
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nplaced++;
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} else {
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vm->m_data[vi] = MapNode(biome->c_stone);
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}
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air_above = false;
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water_above = false;
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} else if (c == c_water_source) {
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vm->m_data[vi] = MapNode((y > (s32)(water_level - depth_water_top))
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? biome->c_water_top : biome->c_water);
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nplaced = 0; // Enable top/filler placement for next surface
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air_above = false;
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water_above = true;
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} else if (c == c_river_water_source) {
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vm->m_data[vi] = MapNode(biome->c_river_water);
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nplaced = depth_top; // Enable filler placement for next surface
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air_above = false;
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water_above = true;
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} else if (c == CONTENT_AIR) {
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nplaced = 0; // Enable top/filler placement for next surface
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air_above = true;
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water_above = false;
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} else { // Possible various nodes overgenerated from neighbouring mapchunks
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nplaced = U16_MAX; // Disable top/filler placement
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air_above = false;
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water_above = false;
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}
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vm->m_area.add_y(em, vi, -1);
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}
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}
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return stone_type;
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}
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void MapgenValleys::dustTopNodes()
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{
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if (node_max.Y < water_level)
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return;
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v3s16 em = vm->m_area.getExtent();
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u32 index = 0;
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for (s16 z = node_min.Z; z <= node_max.Z; z++)
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for (s16 x = node_min.X; x <= node_max.X; x++, index++) {
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Biome *biome = (Biome *)bmgr->getRaw(biomemap[index]);
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if (biome->c_dust == CONTENT_IGNORE)
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continue;
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u32 vi = vm->m_area.index(x, full_node_max.Y, z);
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content_t c_full_max = vm->m_data[vi].getContent();
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s16 y_start;
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if (c_full_max == CONTENT_AIR) {
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y_start = full_node_max.Y - 1;
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} else if (c_full_max == CONTENT_IGNORE) {
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vi = vm->m_area.index(x, node_max.Y + 1, z);
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content_t c_max = vm->m_data[vi].getContent();
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if (c_max == CONTENT_AIR)
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y_start = node_max.Y;
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else
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continue;
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} else {
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continue;
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}
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vi = vm->m_area.index(x, y_start, z);
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for (s16 y = y_start; y >= node_min.Y - 1; y--) {
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if (vm->m_data[vi].getContent() != CONTENT_AIR)
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break;
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vm->m_area.add_y(em, vi, -1);
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}
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content_t c = vm->m_data[vi].getContent();
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if (!ndef->get(c).buildable_to && c != CONTENT_IGNORE && c != biome->c_dust) {
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vm->m_area.add_y(em, vi, 1);
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vm->m_data[vi] = MapNode(biome->c_dust);
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}
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}
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}
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void MapgenValleys::generateCaves(s16 max_stone_y)
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void MapgenValleys::generateCaves(s16 max_stone_y, s16 large_cave_depth)
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{
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if (max_stone_y < node_min.Y)
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return;
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