示例#1
0
    StockpileInfo(building_stockpilest *sp_) : sp(sp_)
    {
        MapExtras::MapCache mc;

        z = sp_->z;
        x1 = sp_->room.x;
        x2 = sp_->room.x + sp_->room.width;
        y1 = sp_->room.y;
        y2 = sp_->room.y + sp_->room.height;
        int e = 0;
        size = 0;
        free = 0;
        for (int y = y1; y < y2; y++)
            for (int x = x1; x < x2; x++)
                if (sp_->room.extents[e++] == 1)
                {
                    size++;
                    DFCoord cursor (x,y,z);
                    uint32_t blockX = x / 16;
                    uint32_t tileX = x % 16;
                    uint32_t blockY = y / 16;
                    uint32_t tileY = y % 16;
                    MapExtras::Block * b = mc.BlockAt(cursor/16);
                    if(b && b->is_valid())
                    {
                        auto &block = *b->getRaw();
                        df::tile_occupancy &occ = block.occupancy[tileX][tileY];
                        if (!occ.bits.item)
                            free++;
                    }
                }
    }
示例#2
0
int main(int argc, char *argv[])
{
    bool temporary_terminal = TemporaryTerminal();

    uint32_t x_max = 0, y_max = 0, z_max = 0;
    DFHack::ContextManager manager("Memory.xml");

    DFHack::Context *context = manager.getSingleContext();
    if (!context->Attach())
    {
        std::cerr << "Unable to attach to DF!" << std::endl;
        if(temporary_terminal)
            std::cin.ignore();
        return 1;
    }

    DFHack::Maps *maps = context->getMaps();
    if (!maps->Start())
    {
        std::cerr << "Cannot get map info!" << std::endl;
        context->Detach();
        if(temporary_terminal)
            std::cin.ignore();
        return 1;
    }
    maps->getSize(x_max, y_max, z_max);
    MapExtras::MapCache map(maps);

    for(uint32_t z = 0; z < z_max; z++)
    {
        for(uint32_t b_y = 0; b_y < y_max; b_y++)
        {
            for(uint32_t b_x = 0; b_x < x_max; b_x++)
            {
                // Get the map block
                DFHack::DFCoord blockCoord(b_x, b_y);
                MapExtras::Block *b = map.BlockAt(DFHack::DFCoord(b_x, b_y, z));
                if (!b || !b->valid)
                {
                    continue;
                }

                DFHack::t_blockflags flags = b->BlockFlags();
                flags.whole = flags.whole ^ 0xFFFFFFFF;
                b->setBlockFlags(flags);
                b->Write();
            } // block x
        } // block y
    } // z

    maps->Finish();
    context->Detach();
    return 0;
}
示例#3
0
command_result changelayer (color_ostream &out, std::vector <std::string> & parameters)
{
    CoreSuspender suspend; 

    string material;
    bool force = false;
    bool all_biomes = false;
    bool all_layers = false;
    bool verbose = false;
    warned = false;

    for(size_t i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            out.print(changelayer_help.c_str());
            return CR_OK;
        }
        if(parameters[i] == "trouble")
        {
            out.print(changelayer_trouble.c_str());
            return CR_OK;
        }
        if(parameters[i] == "force")
            force = true;
        if(parameters[i] == "all_biomes")
            all_biomes = true;
        if(parameters[i] == "all_layers")
            all_layers = true;
        if(parameters[i] == "verbose")
            verbose = true;
    }

    if (!Maps::IsValid())
    {
        out.printerr("Map is not available!\n");
        return CR_FAILURE;
    }

    if (parameters.empty())
    {
        out.printerr("You need to specify a material!\n");
        return CR_WRONG_USAGE;
    }

    material = parameters[0];

    MaterialInfo mat_new;
    if (!mat_new.findInorganic(material))
    {
        out.printerr("No such material!\n");
        return CR_FAILURE;
    }

    // check if specified material is stone or gem or soil
    if (mat_new.inorganic->material.flags.is_set(material_flags::IS_METAL) ||
        mat_new.inorganic->material.flags.is_set(material_flags::NO_STONE_STOCKPILE))
    {
        out.printerr("Invalid material - you must select a type of stone or gem or soil.\n");
        return CR_FAILURE;
    }


    MapExtras::MapCache mc;

    int32_t regionX, regionY, regionZ;
    Maps::getPosition(regionX,regionY,regionZ);

    int32_t cursorX, cursorY, cursorZ;
    Gui::getCursorCoords(cursorX,cursorY,cursorZ);
    if(cursorX == -30000)
    {
        out.printerr("No cursor; place cursor over tile.\n");
        return CR_FAILURE;
    }
    DFCoord cursor (cursorX,cursorY,cursorZ);

    uint32_t blockX = cursorX / 16;
    uint32_t tileX = cursorX % 16;
    uint32_t blockY = cursorY / 16;
    uint32_t tileY = cursorY % 16;

    MapExtras::Block * b = mc.BlockAt(cursor/16);
    if(!b || !b->is_valid())
    {
        out.printerr("No data.\n");
        return CR_OK;
    }

    df::tile_designation des = b->DesignationAt(cursor%16);

    // get biome and geolayer at cursor position
    uint32_t biome = des.bits.biome;
    uint32_t layer = des.bits.geolayer_index;
    if(verbose)
    {
        out << "biome: " << biome << endl
            << "geolayer: " << layer << endl;
    }


    // there is no Maps::WriteGeology or whatever, and I didn't want to mess with the library and add it
    // so I copied the stuff which reads the geology information and modified it to be able to change it
    // 
    // a more elegant solution would probably look like this:
    // 1) modify Maps::ReadGeology to accept and fill one more optional vector 
    //    where the geolayer ids of the 9 biomes are stored
    // 2) call ReadGeology here, modify the data in the vectors without having to do all that map stuff
    // 3) write Maps::WriteGeology, pass the vectors, let it do it's work
    // Step 1) is optional, but it would make implementing 3) easier. 
    // Otherwise that "check which geo_index is used by biome X" loop would need to be done again.

    // no need to touch the same geology more than once
    // though it wouldn't matter much since there is not much data to be processed
    vector<uint16_t> v_geoprocessed;
    v_geoprocessed.clear();

    // iterate over 8 surrounding regions + local region
    for (int i = eNorthWest; i < eBiomeCount; i++)
    {
        if(verbose) 
            out << "---Biome: " << i;
        if(!all_biomes && i!=biome)
        {
            if(verbose) 
                out << "-skipping" << endl;
            continue;
        }
        else
        {
            if(verbose) 
                out << "-checking" << endl;
        }

        // check against worldmap boundaries, fix if needed
        // regionX is in embark squares
        // regionX/16 is in 16x16 embark square regions
        // i provides -1 .. +1 offset from the current region
        int bioRX = world->map.region_x / 16 + ((i % 3) - 1);
        if (bioRX < 0) bioRX = 0;
        if (bioRX >= world->world_data->world_width) bioRX = world->world_data->world_width - 1;
        int bioRY = world->map.region_y / 16 + ((i / 3) - 1);
        if (bioRY < 0) bioRY = 0;
        if (bioRY >= world->world_data->world_height) bioRY = world->world_data->world_height - 1;

        // get index into geoblock vector
        uint16_t geoindex = world->world_data->region_map[bioRX][bioRY].geo_index;

        if(verbose)
            out << "geoindex: " << geoindex << endl;

        bool skip = false;
        for(int g=0; g<v_geoprocessed.size(); g++)
        {
            if(v_geoprocessed.at(g)==geoindex)
            {
                if(verbose)
                    out << "already processed" << endl;
                skip = true;
                break;
            }
        }
        if(skip)
            continue;

        v_geoprocessed.push_back(geoindex);

        /// geology blocks have a vector of layer descriptors
        // get the vector with pointer to layers
        df::world_geo_biome *geo_biome = df::world_geo_biome::find(geoindex);
        if (!geo_biome)
        {
            if(verbose)
                out << "no geology found here." << endl;
            continue;
        }

        vector <df::world_geo_layer*> &geolayers = geo_biome->layers;

        // complain if layer is out of range
        // geology has up to 16 layers currently, but can have less!
        if(layer >= geolayers.size() || layer < 0)
        {
            if(verbose)
                out << "layer out of range!";
            continue;
        }

        // now let's actually write the new mat id to the layer(s)
        if(all_layers)
        {
            for (size_t j = 0; j < geolayers.size(); j++)
            {
                MaterialInfo mat_old;
                mat_old.decode(0, geolayers[j]->mat_index);
                if(conversionAllowed(out, mat_new, mat_old, force))
                {
                    if(verbose)
                        out << "changing geolayer " << j 
                            << " from " << mat_old.getToken() 
                            << " to " << mat_new.getToken() 
                            << endl;
                    geolayers[j]->mat_index = mat_new.index;
                }
            }
        }
        else
        {
            MaterialInfo mat_old;
            mat_old.decode(0, geolayers[layer]->mat_index);
            if(conversionAllowed(out, mat_new, mat_old, force))
            {
                if(verbose)
                    out << "changing geolayer " << layer
                        << " from " << mat_old.getToken()
                        << " to " << mat_new.getToken()
                        << endl;
                geolayers[layer]->mat_index = mat_new.index;
            }
        }
    }

    out.print("Done.\n");
    
    // Give control back to DF.
    return CR_OK;
}
示例#4
0
command_result prospector (color_ostream &con, vector <string> & parameters)
{
    bool showHidden = false;
    bool showPlants = true;
    bool showValue = false;
    bool showHFS = false;

    for(size_t i = 0; i < parameters.size();i++)
    {
        if (parameters[i] == "all")
        {
            showHidden = true;
        }
        else if (parameters[i] == "value")
        {
            showValue = true;
        }
        else if (parameters[i] == "hell")
        {
            showHidden = showHFS = true;
        }
        else
            return CR_WRONG_USAGE;
    }

    CoreSuspender suspend;

    // Embark screen active: estimate using world geology data
    if (VIRTUAL_CAST_VAR(screen, df::viewscreen_choose_start_sitest, Core::getTopViewscreen()))
        return embark_prospector(con, screen, showHidden, showValue);

    if (!Maps::IsValid())
    {
        con.printerr("Map is not available!\n");
        return CR_FAILURE;
    }

    uint32_t x_max = 0, y_max = 0, z_max = 0;
    Maps::getSize(x_max, y_max, z_max);
    MapExtras::MapCache map;

    DFHack::Materials *mats = Core::getInstance().getMaterials();

    DFHack::t_feature blockFeature;

    bool hasAquifer = false;
    MatMap baseMats;
    MatMap layerMats;
    MatMap veinMats;
    MatMap plantMats;
    MatMap treeMats;

    matdata liquidWater;
    matdata liquidMagma;
    matdata aquiferTiles;
    matdata hfsTiles;

    uint32_t vegCount = 0;

    for(uint32_t z = 0; z < z_max; z++)
    {
        for(uint32_t b_y = 0; b_y < y_max; b_y++)
        {
            for(uint32_t b_x = 0; b_x < x_max; b_x++)
            {
                // Get the map block
                df::coord2d blockCoord(b_x, b_y);
                MapExtras::Block *b = map.BlockAt(DFHack::DFCoord(b_x, b_y, z));
                if (!b || !b->is_valid())
                {
                    continue;
                }

                // Find features
                b->GetFeature(&blockFeature);

                int global_z = world->map.region_z + z;

                // Iterate over all the tiles in the block
                for(uint32_t y = 0; y < 16; y++)
                {
                    for(uint32_t x = 0; x < 16; x++)
                    {
                        df::coord2d coord(x, y);
                        df::tile_designation des = b->DesignationAt(coord);
                        df::tile_occupancy occ = b->OccupancyAt(coord);

                        // Skip hidden tiles
                        if (!showHidden && des.bits.hidden)
                        {
                            continue;
                        }

                        // Check for aquifer
                        if (des.bits.water_table)
                        {
                            hasAquifer = true;
                            aquiferTiles.add(global_z);
                        }

                        // Check for liquid
                        if (des.bits.flow_size)
                        {
                            if (des.bits.liquid_type == tile_liquid::Magma)
                                liquidMagma.add(global_z);
                            else
                                liquidWater.add(global_z);
                        }

                        df::tiletype type = b->tiletypeAt(coord);
                        df::tiletype_shape tileshape = tileShape(type);
                        df::tiletype_material tilemat = tileMaterial(type);

                        // We only care about these types
                        switch (tileshape)
                        {
                        case tiletype_shape::WALL:
                        case tiletype_shape::FORTIFICATION:
                            break;
                        case tiletype_shape::EMPTY:
                            /* find the top of the HFS chamber */
                            if (tilemat == tiletype_material::AIR &&
                                des.bits.feature && des.bits.hidden &&
                                blockFeature.type == feature_type::glowing_pit)
                            {
                                hfsTiles.add(global_z);
                            }
                        default:
                            continue;
                        }

                        // Count the material type
                        baseMats[tilemat].add(global_z);

                        // Find the type of the tile
                        switch (tilemat)
                        {
                        case tiletype_material::SOIL:
                        case tiletype_material::STONE:
                            layerMats[b->layerMaterialAt(coord)].add(global_z);
                            break;
                        case tiletype_material::MINERAL:
                            veinMats[b->veinMaterialAt(coord)].add(global_z);
                            break;
                        case tiletype_material::LAVA_STONE:
                            // TODO ?
                            break;
                        default:
                            break;
                        }
                    }
                }

                // Check plants this way, as the other way wasn't getting them all
                // and we can check visibility more easily here
                if (showPlants)
                {
                    auto block = Maps::getBlock(b_x,b_y,z);
                    stl::vector<df::plant *> *plants = block ? &block->plants : NULL;
                    if(plants)
                    {
                        for (auto it = plants->begin(); it != plants->end(); it++)
                        {
                            const df::plant & plant = *(*it);
                            df::coord2d loc(plant.pos.x, plant.pos.y);
                            loc = loc % 16;
                            if (showHidden || !b->DesignationAt(loc).bits.hidden)
                            {
                                if(plant.flags.bits.is_shrub)
                                    plantMats[plant.plant_id].add(global_z);
                                else
                                    treeMats[plant.wood_id].add(global_z);
                            }
                        }
                    }
                }
                // Block end
            } // block x

            // Clean uneeded memory
            map.trash();
        } // block y
    } // z

    MatMap::const_iterator it;

    con << "Base materials:" << std::endl;
    for (it = baseMats.begin(); it != baseMats.end(); ++it)
    {
        con << std::setw(25) << ENUM_KEY_STR(tiletype_material,(df::tiletype_material)it->first) << " : " << it->second.count << std::endl;
    }

    if (liquidWater.count || liquidMagma.count)
    {
        con << std::endl << "Liquids:" << std::endl;
        if (liquidWater.count)
        {
            con << std::setw(25) << "WATER" << " : ";
            printMatdata(con, liquidWater);
        }
        if (liquidWater.count)
        {
            con << std::setw(25) << "MAGMA" << " : ";
            printMatdata(con, liquidMagma);
        }
    }

    con << std::endl << "Layer materials:" << std::endl;
    printMats<df::matgloss_stone, shallower>(con, layerMats, world->raws.matgloss.stone, showValue);

    printVeins(con, veinMats, mats, showValue);

    if (showPlants)
    {
        con << "Shrubs:" << std::endl;
        printMats<df::matgloss_plant, std::greater>(con, plantMats, world->raws.matgloss.plant, showValue);
        con << "Wood in trees:" << std::endl;
        printMats<df::matgloss_wood, std::greater>(con, treeMats, world->raws.matgloss.wood, showValue);
    }

    if (hasAquifer)
    {
        con << "Has aquifer";
        if (aquiferTiles.count)
        {
            con << "               : ";
            printMatdata(con, aquiferTiles);
        }
        else
            con << std::endl;
    }

    if (showHFS && hfsTiles.count)
    {
        con << "Has HFS                   : ";
        printMatdata(con, hfsTiles);
    }

    // Cleanup
    mats->Finish();
    con << std::endl;
    return CR_OK;
}
示例#5
0
command_result df_probe (color_ostream &out, vector <string> & parameters)
{
    //bool showBlock, showDesig, showOccup, showTile, showMisc;

    /*
    if (!parseOptions(parameters, showBlock, showDesig, showOccup,
                      showTile, showMisc))
    {
        out.printerr("Unknown parameters!\n");
        return CR_FAILURE;
    }
    */

    CoreSuspender suspend;

    DFHack::Materials *Materials = Core::getInstance().getMaterials();

    std::vector<t_matglossInorganic> inorganic;
    bool hasmats = Materials->CopyInorganicMaterials(inorganic);

    if (!Maps::IsValid())
    {
        out.printerr("Map is not available!\n");
        return CR_FAILURE;
    }
    MapExtras::MapCache mc;

    int32_t regionX, regionY, regionZ;
    Maps::getPosition(regionX,regionY,regionZ);

    int32_t cursorX, cursorY, cursorZ;
    Gui::getCursorCoords(cursorX,cursorY,cursorZ);
    if(cursorX == -30000)
    {
        out.printerr("No cursor; place cursor over tile to probe.\n");
        return CR_FAILURE;
    }
    DFCoord cursor (cursorX,cursorY,cursorZ);

    uint32_t blockX = cursorX / 16;
    uint32_t tileX = cursorX % 16;
    uint32_t blockY = cursorY / 16;
    uint32_t tileY = cursorY % 16;

    MapExtras::Block * b = mc.BlockAt(cursor/16);
    if(!b || !b->is_valid())
    {
        out.printerr("No data.\n");
        return CR_OK;
    }

    auto &block = *b->getRaw();
    out.print("block addr: 0x%x\n\n", &block);
/*
    if (showBlock)
    {
        out.print("block flags:\n");
        print_bits<uint32_t>(block.blockflags.whole,out);
        out.print("\n\n");
    }
*/
    df::tiletype tiletype = mc.tiletypeAt(cursor);
    df::tile_designation &des = block.designation[tileX][tileY];
    df::tile_occupancy &occ = block.occupancy[tileX][tileY];
/*
    if(showDesig)
    {
        out.print("designation\n");
        print_bits<uint32_t>(block.designation[tileX][tileY].whole,
                                out);
        out.print("\n\n");
    }

    if(showOccup)
    {
        out.print("occupancy\n");
        print_bits<uint32_t>(block.occupancy[tileX][tileY].whole,
                                out);
        out.print("\n\n");
    }
*/

    // tiletype
    out.print("tiletype: ");
    describeTile(out, tiletype);
    out.print("static: ");
    describeTile(out, mc.staticTiletypeAt(cursor));
    out.print("base: ");
    describeTile(out, mc.baseTiletypeAt(cursor));

    out.print("temperature1: %d U\n",mc.temperature1At(cursor));
    out.print("temperature2: %d U\n",mc.temperature2At(cursor));

    int offset = block.region_offset[des.bits.biome];
    int bx = clip_range(block.region_pos.x + (offset % 3) - 1, 0, world->world_data->world_width-1);
    int by = clip_range(block.region_pos.y + (offset / 3) - 1, 0, world->world_data->world_height-1);

    auto biome = &world->world_data->region_map[bx][by];

    int sav = biome->savagery;
    int evi = biome->evilness;
    int sindex = sav > 65 ? 2 : sav < 33 ? 0 : 1;
    int eindex = evi > 65 ? 2 : evi < 33 ? 0 : 1;
    int surr = sindex + eindex * 3;

    const char* surroundings[] = { "Serene", "Mirthful", "Joyous Wilds", "Calm", "Wilderness", "Untamed Wilds", "Sinister", "Haunted", "Terrifying" };

    // biome, geolayer
    out << "biome: " << des.bits.biome << " (" << 
        "region id=" << biome->region_id << ", " <<
        surroundings[surr] << ", " <<
        "savagery " << biome->savagery << ", " <<
        "evilness " << biome->evilness << ")" << std::endl;
    out << "geolayer: " << des.bits.geolayer_index
        << std::endl;
    int16_t base_rock = mc.layerMaterialAt(cursor);
    if(base_rock != -1)
    {
        out << "Layer material: " << dec << base_rock;
        if(hasmats)
            out << " / " << inorganic[base_rock].id
                << " / "
                << inorganic[base_rock].name
                << endl;
        else
            out << endl;
    }
    int16_t vein_rock = mc.veinMaterialAt(cursor);
    if(vein_rock != -1)
    {
        out << "Vein material (final): " << dec << vein_rock;
        if(hasmats)
            out << " / " << inorganic[vein_rock].id
                << " / "
                << inorganic[vein_rock].name
                << endl;
        else
            out << endl;
    }
    MaterialInfo minfo(mc.baseMaterialAt(cursor));
    if (minfo.isValid())
        out << "Base material: " << minfo.getToken() << " / " << minfo.toString() << endl;
    minfo.decode(mc.staticMaterialAt(cursor));
    if (minfo.isValid())
        out << "Static material: " << minfo.getToken() << " / " << minfo.toString() << endl;
    // liquids
    if(des.bits.flow_size)
    {
        if(des.bits.liquid_type == tile_liquid::Magma)
            out <<"magma: ";
        else out <<"water: ";
        out << des.bits.flow_size << std::endl;
    }
    if(des.bits.flow_forbid)
        out << "flow forbid" << std::endl;
    if(des.bits.pile)
        out << "stockpile?" << std::endl;
    if(des.bits.rained)
        out << "rained?" << std::endl;
    if(des.bits.smooth)
        out << "smooth?" << std::endl;
    if(des.bits.water_salt)
        out << "salty" << endl;
    if(des.bits.water_stagnant)
        out << "stagnant" << endl;

    #define PRINT_FLAG( FIELD, BIT )  out.print("%-16s= %c\n", #BIT , ( FIELD.bits.BIT ? 'Y' : ' ' ) )
    PRINT_FLAG( des, hidden );
    PRINT_FLAG( des, light );
    PRINT_FLAG( des, outside );
    PRINT_FLAG( des, subterranean );
    PRINT_FLAG( des, water_table );
    PRINT_FLAG( des, rained );
    PRINT_FLAG( occ, monster_lair);

    df::coord2d pc(blockX, blockY);

    t_feature local;
    t_feature global;
    Maps::ReadFeatures(&block,&local,&global);
    PRINT_FLAG( des, feature_local );
    if(local.type != -1)
    {
        out.print("%-16s", "");
        out.print("  %4d", block.local_feature);
        out.print(" (%2d)", local.type);
        out.print(" addr 0x%X ", local.origin);
        out.print(" %s\n", sa_feature(local.type));
    }
    PRINT_FLAG( des, feature_global );
    if(global.type != -1)
    {
        out.print("%-16s", "");
        out.print("  %4d", block.global_feature);
        out.print(" (%2d)", global.type);
        out.print(" %s\n", sa_feature(global.type));
    }
    #undef PRINT_FLAG
    out << "local feature idx: " << block.local_feature
        << endl;
    out << "global feature idx: " << block.global_feature
        << endl;
    out << std::endl;

    if(block.occupancy[tileX][tileY].bits.no_grow)
        out << "no grow" << endl;

    for(size_t e=0; e<block.block_events.size(); e++)
    {            
        df::block_square_event * blev = block.block_events[e];
        df::block_square_event_type blevtype = blev->getType();
        switch(blevtype)
        {
        case df::block_square_event_type::grass:
            {
                df::block_square_event_grassst * gr_ev = (df::block_square_event_grassst *)blev;
                if(gr_ev->amount[tileX][tileY] > 0)
                {
                    out << "amount of grass: " << (int)gr_ev->amount[tileX][tileY] << endl;
                }
                break;
            }
        case df::block_square_event_type::world_construction:
            {
                df::block_square_event_world_constructionst * co_ev = (df::block_square_event_world_constructionst*)blev;
                uint16_t bits = co_ev->tile_bitmask[tileY];
                out << "construction bits: " << bits << endl;
                break;
            }
        default:
            //out << "unhandled block event type!" << endl;
            break;
        }
    }


    return CR_OK;
}
示例#6
0
command_result prospector (color_ostream &con, vector <string> & parameters)
{
    bool showHidden = false;
    bool showPlants = true;
    bool showSlade = true;
    bool showTemple = true;
    bool showValue = false;
    bool showTube = false;

    for(size_t i = 0; i < parameters.size();i++)
    {
        if (parameters[i] == "all")
        {
            showHidden = true;
        }
        else if (parameters[i] == "value")
        {
            showValue = true;
        }
        else if (parameters[i] == "hell")
        {
            showHidden = showTube = true;
        }
        else
            return CR_WRONG_USAGE;
    }

    CoreSuspender suspend;

    // Embark screen active: estimate using world geology data
    if (VIRTUAL_CAST_VAR(screen, df::viewscreen_choose_start_sitest, Core::getTopViewscreen()))
        return embark_prospector(con, screen, showHidden, showValue);

    if (!Maps::IsValid())
    {
        con.printerr("Map is not available!\n");
        return CR_FAILURE;
    }

    uint32_t x_max = 0, y_max = 0, z_max = 0;
    Maps::getSize(x_max, y_max, z_max);
    MapExtras::MapCache map;

    DFHack::Materials *mats = Core::getInstance().getMaterials();

    DFHack::t_feature blockFeatureGlobal;
    DFHack::t_feature blockFeatureLocal;

    bool hasAquifer = false;
    bool hasDemonTemple = false;
    bool hasLair = false;
    MatMap baseMats;
    MatMap layerMats;
    MatMap veinMats;
    MatMap plantMats;
    MatMap treeMats;

    matdata liquidWater;
    matdata liquidMagma;
    matdata aquiferTiles;
    matdata tubeTiles;

    uint32_t vegCount = 0;

    for(uint32_t z = 0; z < z_max; z++)
    {
        for(uint32_t b_y = 0; b_y < y_max; b_y++)
        {
            for(uint32_t b_x = 0; b_x < x_max; b_x++)
            {
                // Get the map block
                df::coord2d blockCoord(b_x, b_y);
                MapExtras::Block *b = map.BlockAt(DFHack::DFCoord(b_x, b_y, z));
                if (!b || !b->is_valid())
                {
                    continue;
                }

                // Find features
                b->GetGlobalFeature(&blockFeatureGlobal);
                b->GetLocalFeature(&blockFeatureLocal);

                int global_z = world->map.region_z + z;

                // Iterate over all the tiles in the block
                for(uint32_t y = 0; y < 16; y++)
                {
                    for(uint32_t x = 0; x < 16; x++)
                    {
                        df::coord2d coord(x, y);
                        df::tile_designation des = b->DesignationAt(coord);
                        df::tile_occupancy occ = b->OccupancyAt(coord);

                        // Skip hidden tiles
                        if (!showHidden && des.bits.hidden)
                        {
                            continue;
                        }

                        // Check for aquifer
                        if (des.bits.water_table)
                        {
                            hasAquifer = true;
                            aquiferTiles.add(global_z);
                        }

                        // Check for lairs
                        if (occ.bits.monster_lair)
                        {
                            hasLair = true;
                        }

                        // Check for liquid
                        if (des.bits.flow_size)
                        {
                            if (des.bits.liquid_type == tile_liquid::Magma)
                                liquidMagma.add(global_z);
                            else
                                liquidWater.add(global_z);
                        }

                        df::tiletype type = b->tiletypeAt(coord);
                        df::tiletype_shape tileshape = tileShape(type);
                        df::tiletype_material tilemat = tileMaterial(type);

                        // We only care about these types
                        switch (tileshape)
                        {
                        case tiletype_shape::WALL:
                        case tiletype_shape::FORTIFICATION:
                            break;
                        case tiletype_shape::EMPTY:
                            /* A heuristic: tubes inside adamantine have EMPTY:AIR tiles which
                               still have feature_local set. Also check the unrevealed status,
                               so as to exclude any holes mined by the player. */
                            if (tilemat == tiletype_material::AIR &&
                                des.bits.feature_local && des.bits.hidden &&
                                blockFeatureLocal.type == feature_type::deep_special_tube)
                            {
                                tubeTiles.add(global_z);
                            }
                        default:
                            continue;
                        }

                        // Count the material type
                        baseMats[tilemat].add(global_z);

                        // Find the type of the tile
                        switch (tilemat)
                        {
                        case tiletype_material::SOIL:
                        case tiletype_material::STONE:
                            layerMats[b->layerMaterialAt(coord)].add(global_z);
                            break;
                        case tiletype_material::MINERAL:
                            veinMats[b->veinMaterialAt(coord)].add(global_z);
                            break;
                        case tiletype_material::FEATURE:
                            if (blockFeatureLocal.type != -1 && des.bits.feature_local)
                            {
                                if (blockFeatureLocal.type == feature_type::deep_special_tube
                                        && blockFeatureLocal.main_material == 0) // stone
                                {
                                    veinMats[blockFeatureLocal.sub_material].add(global_z);
                                }
                                else if (showTemple
                                         && blockFeatureLocal.type == feature_type::deep_surface_portal)
                                {
                                    hasDemonTemple = true;
                                }
                            }

                            if (showSlade && blockFeatureGlobal.type != -1 && des.bits.feature_global
                                    && blockFeatureGlobal.type == feature_type::feature_underworld_from_layer
                                    && blockFeatureGlobal.main_material == 0) // stone
                            {
                                layerMats[blockFeatureGlobal.sub_material].add(global_z);
                            }
                            break;
                        case tiletype_material::LAVA_STONE:
                            // TODO ?
                            break;
                        default:
                            break;
                        }
                    }
                }

                // Check plants this way, as the other way wasn't getting them all
                // and we can check visibility more easily here
                if (showPlants)
                {
                    auto block = Maps::getBlockColumn(b_x,b_y);
                    vector<df::plant *> *plants = block ? &block->plants : NULL;
                    if(plants)
                    {
                        for (PlantList::const_iterator it = plants->begin(); it != plants->end(); it++)
                        {
                            const df::plant & plant = *(*it);
                            if (plant.pos.z != z)
                                continue;
                            df::coord2d loc(plant.pos.x, plant.pos.y);
                            loc = loc % 16;
                            if (showHidden || !b->DesignationAt(loc).bits.hidden)
                            {
                                if(plant.flags.bits.is_shrub)
                                    plantMats[plant.material].add(global_z);
                                else
                                    treeMats[plant.material].add(global_z);
                            }
                        }
                    }
                }
                // Block end
            } // block x

            // Clean uneeded memory
            map.trash();
        } // block y
    } // z

    MatMap::const_iterator it;

    con << "Base materials:" << std::endl;
    for (it = baseMats.begin(); it != baseMats.end(); ++it)
    {
        con << std::setw(25) << ENUM_KEY_STR(tiletype_material,(df::tiletype_material)it->first) << " : " << it->second.count << std::endl;
    }

    if (liquidWater.count || liquidMagma.count)
    {
        con << std::endl << "Liquids:" << std::endl;
        if (liquidWater.count)
        {
            con << std::setw(25) << "WATER" << " : ";
            printMatdata(con, liquidWater);
        }
        if (liquidWater.count)
        {
            con << std::setw(25) << "MAGMA" << " : ";
            printMatdata(con, liquidMagma);
        }
    }

    con << std::endl << "Layer materials:" << std::endl;
    printMats<df::inorganic_raw, shallower>(con, layerMats, world->raws.inorganics, showValue);

    printVeins(con, veinMats, mats, showValue);

    if (showPlants)
    {
        con << "Shrubs:" << std::endl;
        printMats<df::plant_raw, std::greater>(con, plantMats, world->raws.plants.all, showValue);
        con << "Wood in trees:" << std::endl;
        printMats<df::plant_raw, std::greater>(con, treeMats, world->raws.plants.all, showValue);
    }

    if (hasAquifer)
    {
        con << "Has aquifer";
        if (aquiferTiles.count)
        {
            con << "               : ";
            printMatdata(con, aquiferTiles);
        }
        else
            con << std::endl;
    }

    if (showTube && tubeTiles.count)
    {
        con << "Has HFS tubes             : ";
        printMatdata(con, tubeTiles);
    }

    if (hasDemonTemple)
    {
        con << "Has demon temple" << std::endl;
    }

    if (hasLair)
    {
        con << "Has lair" << std::endl;
    }

    // Cleanup
    mats->Finish();
    con << std::endl;
    return CR_OK;
}
示例#7
0
command_result mapexport (color_ostream &out, std::vector <std::string> & parameters)
{
    bool showHidden = false;

    int filenameParameter = 1;

    for(size_t i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            out.print("Exports the currently visible map to a file.\n"
                         "Usage: mapexport [options] <filename>\n"
                         "Example: mapexport all embark.dfmap\n"
                         "Options:\n"
                         "   all   - Export the entire map, not just what's revealed.\n"
            );
            return CR_OK;
        }
        if (parameters[i] == "all")
        {
            showHidden = true;
            filenameParameter++;
        }
    }

    CoreSuspender suspend;

    uint32_t x_max=0, y_max=0, z_max=0;

    if (!Maps::IsValid())
    {
        out.printerr("Map is not available!\n");
        return CR_FAILURE;
    }

    if (parameters.size() < filenameParameter)
    {
        out.printerr("Please supply a filename.\n");
        return CR_FAILURE;
    }

    std::string filename = parameters[filenameParameter-1];
    if (filename.rfind(".dfmap") == std::string::npos) filename += ".dfmap";
    out << "Writing to " << filename << "..." << std::endl;

    std::ofstream output_file(filename, std::ios::out | std::ios::trunc | std::ios::binary);
    if (!output_file.is_open())
    {
        out.printerr("Couldn't open the output file.\n");
        return CR_FAILURE;
    }
    ZeroCopyOutputStream *raw_output = new OstreamOutputStream(&output_file);
    GzipOutputStream *zip_output = new GzipOutputStream(raw_output);
    CodedOutputStream *coded_output = new CodedOutputStream(zip_output);

    coded_output->WriteLittleEndian32(0x50414DDF); //Write our file header

    Maps::getSize(x_max, y_max, z_max);
    MapExtras::MapCache map;
    DFHack::Materials *mats = Core::getInstance().getMaterials();

    out << "Writing  map info..." << std::endl;

    dfproto::Map protomap;
    protomap.set_x_size(x_max);
    protomap.set_y_size(y_max);
    protomap.set_z_size(z_max);

    out << "Writing material dictionary..." << std::endl;
    
    for (size_t i = 0; i < world->raws.inorganics.size(); i++)
    {
        dfproto::Material *protomaterial = protomap.add_inorganic_material();
        protomaterial->set_index(i);
        protomaterial->set_name(world->raws.inorganics[i]->id);
    }

    for (size_t i = 0; i < world->raws.plants.all.size(); i++)
    {
        dfproto::Material *protomaterial = protomap.add_organic_material();
        protomaterial->set_index(i);
        protomaterial->set_name(world->raws.plants.all[i]->id);
    }

    std::map<df::coord,std::pair<uint32_t,uint16_t> > constructionMaterials;
    if (Constructions::isValid())
    {
        for (uint32_t i = 0; i < Constructions::getCount(); i++)
        {
            df::construction *construction = Constructions::getConstruction(i);
            constructionMaterials[construction->pos] = std::make_pair(construction->mat_index, construction->mat_type);
        }
    }
        
    coded_output->WriteVarint32(protomap.ByteSize());
    protomap.SerializeToCodedStream(coded_output);
    
    DFHack::t_feature blockFeatureGlobal;
    DFHack::t_feature blockFeatureLocal;

    out.print("Writing map block information");

    for(uint32_t z = 0; z < z_max; z++)
    {
        for(uint32_t b_y = 0; b_y < y_max; b_y++)
        {
            for(uint32_t b_x = 0; b_x < x_max; b_x++)
            {
                if (b_x == 0 && b_y == 0 && z % 10 == 0) out.print(".");
                // Get the map block
                df::coord2d blockCoord(b_x, b_y);
                MapExtras::Block *b = map.BlockAt(DFHack::DFCoord(b_x, b_y, z));
                if (!b || !b->valid)
                {
                    continue;
                }

                dfproto::Block protoblock;
                protoblock.set_x(b_x);
                protoblock.set_y(b_y);
                protoblock.set_z(z);

                { // Find features
                    uint32_t index = b->raw.global_feature;
                    if (index != -1)
                        Maps::GetGlobalFeature(blockFeatureGlobal, index);

                    index = b->raw.local_feature;
                    if (index != -1)
                        Maps::GetLocalFeature(blockFeatureLocal, blockCoord, index);
                }

                int global_z = df::global::world->map.region_z + z;

                // Iterate over all the tiles in the block
                for(uint32_t y = 0; y < 16; y++)
                {
                    for(uint32_t x = 0; x < 16; x++)
                    {
                        df::coord2d coord(x, y);
                        df::tile_designation des = b->DesignationAt(coord);
                        df::tile_occupancy occ = b->OccupancyAt(coord);

                        // Skip hidden tiles
                        if (!showHidden && des.bits.hidden)
                        {
                            continue;
                        }

                        dfproto::Tile *prototile = protoblock.add_tile();
                        prototile->set_x(x);
                        prototile->set_y(y);

                        // Check for liquid
                        if (des.bits.flow_size)
                        {
                            prototile->set_liquid_type((dfproto::Tile::LiquidType)des.bits.liquid_type);
                            prototile->set_flow_size(des.bits.flow_size);
                        }

                        df::tiletype type = b->TileTypeAt(coord);
                        prototile->set_type((dfproto::Tile::TileType)tileShape(type));
                        prototile->set_tile_material((dfproto::Tile::TileMaterialType)tileMaterial(type));

                        df::coord map_pos = df::coord(b_x*16+x,b_y*16+y,z);
                        
                        switch (tileMaterial(type))
                        {
                        case tiletype_material::SOIL:
                        case tiletype_material::STONE:
                            prototile->set_material_type(0);
                            prototile->set_material_index(b->baseMaterialAt(coord));
                            break;
                        case tiletype_material::MINERAL:
                            prototile->set_material_type(0);
                            prototile->set_material_index(b->veinMaterialAt(coord));
                            break;
                        case tiletype_material::FEATURE:
                            if (blockFeatureLocal.type != -1 && des.bits.feature_local)
                            {
                                if (blockFeatureLocal.type == feature_type::deep_special_tube
                                        && blockFeatureLocal.main_material == 0) // stone
                                {
                                    prototile->set_material_type(0);
                                    prototile->set_material_index(blockFeatureLocal.sub_material);
                                }
                                if (blockFeatureGlobal.type != -1 && des.bits.feature_global
                                        && blockFeatureGlobal.type == feature_type::feature_underworld_from_layer
                                        && blockFeatureGlobal.main_material == 0) // stone
                                {
                                    prototile->set_material_type(0);
                                    prototile->set_material_index(blockFeatureGlobal.sub_material);
                                }
                            }
                            break;
                        case tiletype_material::CONSTRUCTION:
                            if (constructionMaterials.find(map_pos) != constructionMaterials.end())
                            {
                                prototile->set_material_index(constructionMaterials[map_pos].first);
                                prototile->set_material_type(constructionMaterials[map_pos].second);
                            }
                            break;
                        default:
                            break;
                        }
                    }
                }

                PlantList *plants;
                if (Maps::ReadVegetation(b_x, b_y, z, plants))
                {
                    for (PlantList::const_iterator it = plants->begin(); it != plants->end(); it++)
                    {
                        const df::plant & plant = *(*it);
                        df::coord2d loc(plant.pos.x, plant.pos.y);
                        loc = loc % 16;
                        if (showHidden || !b->DesignationAt(loc).bits.hidden)
                        {
                            dfproto::Plant *protoplant = protoblock.add_plant();
                            protoplant->set_x(loc.x);
                            protoplant->set_y(loc.y);
                            protoplant->set_is_shrub(plant.flags.bits.is_shrub);
                            protoplant->set_material(plant.material);
                        }
                    }
                }
                
                coded_output->WriteVarint32(protoblock.ByteSize());
                protoblock.SerializeToCodedStream(coded_output);
            } // block x
            // Clean uneeded memory
            map.trash();
        } // block y
    } // z

    delete coded_output;
    delete zip_output;
    delete raw_output;

    mats->Finish();
    out.print("\nMap succesfully exported!\n");
    return CR_OK;
}
示例#8
0
bool gather_embark_tile_layer(int EmbX, int EmbY, int EmbZ, EmbarkTileLayer * tile, MapExtras::MapCache * MP)
{
    for(int i = tile->mat_type_table_size(); i < 2304; i++) { //This is needed so we have a full array to work with, otherwise the size isn't updated correctly.
        tile->add_mat_type_table(AIR);
        tile->add_mat_subtype_table(0);
    }
    int num_valid_blocks = 0;
    for(int yy = 0; yy < 3; yy++) {
        for(int xx = 0; xx < 3; xx++) {
            DFCoord current_coord, upper_coord; 
            current_coord.x = EmbX+xx;
            current_coord.y = EmbY+yy;
            current_coord.z = EmbZ;
            upper_coord = current_coord;
            upper_coord.z += 1;
            MapExtras::Block * b = MP->BlockAt(current_coord);
            MapExtras::Block * b_upper = MP->BlockAt(upper_coord);
            if(b && b->getRaw()) {
                for(int block_y=0; block_y<16; block_y++) {
                    for(int block_x=0; block_x<16; block_x++) {
                        df::coord2d block_coord;
                        block_coord.x = block_x;
                        block_coord.y = block_y;
                        df::tiletype tile_type = b->tiletypeAt(block_coord);
                        df::tiletype upper_tile = df::tiletype::Void;
                        if(b_upper && b_upper->getRaw()) {
                            upper_tile = b_upper->tiletypeAt(block_coord);
                        }
                        df::tile_designation designation = b->DesignationAt(block_coord);
                        DFHack::t_matpair actual_mat;
                        if(tileShapeBasic(tileShape(upper_tile)) == tiletype_shape_basic::Floor && (tileMaterial(tile_type) != tiletype_material::FROZEN_LIQUID) && (tileMaterial(tile_type) != tiletype_material::BROOK)) { //if the upper tile is a floor, use that material instead. Unless it's ice.
                            actual_mat = b_upper->staticMaterialAt(block_coord);
                        }
                        else {
                            actual_mat = b->staticMaterialAt(block_coord);
                        }
                        if(((tileMaterial(tile_type) == tiletype_material::FROZEN_LIQUID) || (tileMaterial(tile_type) == tiletype_material::BROOK)) && (tileShapeBasic(tileShape(tile_type)) == tiletype_shape_basic::Floor)) {
                        tile_type = tiletype::OpenSpace;
                        }
                        unsigned int array_index = coord_to_index_48(xx*16+block_x, yy*16+block_y);
                        //make a new fake material at the given index
                        if(tileMaterial(tile_type) == tiletype_material::FROZEN_LIQUID && !((tileShapeBasic(tileShape(upper_tile)) == tiletype_shape_basic::Floor) && (tileMaterial(upper_tile) != tiletype_material::FROZEN_LIQUID))) { //Ice.
                            tile->set_mat_type_table(array_index, BasicMaterial::LIQUID); //Ice is totally a liquid, shut up.
                            tile->set_mat_subtype_table(array_index, LiquidType::ICE);
                            num_valid_blocks++;
                        }
                        else if(designation.bits.flow_size && (tileShapeBasic(tileShape(upper_tile)) != tiletype_shape_basic::Floor)) { //Contains either water or lava.
                            tile->set_mat_type_table(array_index, BasicMaterial::LIQUID); 
                            if(designation.bits.liquid_type) //Magma
                                tile->set_mat_subtype_table(array_index, LiquidType::MAGMA);
                            else //water
                                tile->set_mat_subtype_table(array_index, LiquidType::WATER);
                            num_valid_blocks++;
                        }
                        else if(((tileShapeBasic(tileShape(tile_type)) != tiletype_shape_basic::Open) ||
                            (tileShapeBasic(tileShape(upper_tile)) == tiletype_shape_basic::Floor)) && 
                            ((tileShapeBasic(tileShape(tile_type)) != tiletype_shape_basic::Floor) || 
                            (tileShapeBasic(tileShape(upper_tile)) == tiletype_shape_basic::Floor))) { //if the upper tile is a floor, we don't skip, otherwise we do.
                                if(actual_mat.mat_type == builtin_mats::INORGANIC) { //inorganic
                                    tile->set_mat_type_table(array_index, BasicMaterial::INORGANIC); 
                                    tile->set_mat_subtype_table(array_index, actual_mat.mat_index);
                                }
                                else if(actual_mat.mat_type == 419) { //Growing plants
                                    tile->set_mat_type_table(array_index, BasicMaterial::PLANT); 
                                    tile->set_mat_subtype_table(array_index, actual_mat.mat_index);
                                }
                                else if(actual_mat.mat_type >= 420) { //Wooden constructions. Different from growing plants.
                                    tile->set_mat_type_table(array_index, BasicMaterial::WOOD); 
                                    tile->set_mat_subtype_table(array_index, actual_mat.mat_index);
                                }
                                else { //Unknown and unsupported stuff. Will just be drawn as grey.
                                    tile->set_mat_type_table(array_index, BasicMaterial::OTHER); 
                                    tile->set_mat_subtype_table(array_index, actual_mat.mat_type);
                                }
                                num_valid_blocks++;
                        }
                        else {
                            tile->set_mat_type_table(array_index, BasicMaterial::AIR); 
                        }
                    }
                }
            }
        }
    }
    return (num_valid_blocks >0);
}