예제 #1
0
command_result df_grow (color_ostream &out, vector <string> & parameters)
{
    for(size_t i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            out << "Usage:\n"
                "This command turns all living saplings on the map into full-grown trees.\n"
                "With active cursor, work on the targetted one only.\n";
            return CR_OK;
        }
    }

    CoreSuspender suspend;

    if (!Maps::IsValid())
    {
        out.printerr("Map is not available!\n");
        return CR_FAILURE;
    }
    MapExtras::MapCache map;
    int32_t x,y,z;
    if(Gui::getCursorCoords(x,y,z))
    {
        auto block = Maps::getTileBlock(x,y,z);
        stl::vector<df::plant *> *alltrees = &world->plants.all;
        if(alltrees)
        {
            for(size_t i = 0 ; i < alltrees->size(); i++)
            {
                df::plant * tree = alltrees->at(i);
                if(tree->pos.x == x && tree->pos.y == y && tree->pos.z == z)
                {
                    if(tileShape(map.tiletypeAt(DFCoord(x,y,z))) == tiletype_shape::SAPLING &&
                        tileSpecial(map.tiletypeAt(DFCoord(x,y,z))) != tiletype_special::DEAD)
                    {
                        tree->grow_counter = sapling_to_tree_threshold;
                    }
                    break;
                }
            }
        }
    }
    else
    {
        int grown = 0;
        for(size_t i = 0 ; i < world->plants.all.size(); i++)
        {
            df::plant *p = world->plants.all[i];
            df::tiletype ttype = map.tiletypeAt(df::coord(p->pos.x,p->pos.y,p->pos.z));
            bool is_shrub = p->flags >= plant_flags::shrub_forest;
            if(!is_shrub && tileShape(ttype) == tiletype_shape::SAPLING && tileSpecial(ttype) != tiletype_special::DEAD)
            {
                p->grow_counter = sapling_to_tree_threshold;
            }
        }
    }

    return CR_OK;
}
예제 #2
0
파일: plants.cpp 프로젝트: AnnanFay/dfhack
command_result df_grow (color_ostream &out, vector <string> & parameters)
{
    for(size_t i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            out.print("This command turns all living saplings into full-grown trees.\n");
            return CR_OK;
        }
    }
    CoreSuspender suspend;

    if (!Maps::IsValid())
    {
        out.printerr("Map is not available!\n");
        return CR_FAILURE;
    }
    MapExtras::MapCache map;
    int32_t x,y,z;
    if(Gui::getCursorCoords(x,y,z))
    {
        vector<df::plant *> * alltrees;
        if(Maps::ReadVegetation(x/16,y/16,z,alltrees))
        {
            for(size_t i = 0 ; i < alltrees->size(); i++)
            {
                df::plant * tree = alltrees->at(i);
                if(tree->pos.x == x && tree->pos.y == y && tree->pos.z == z)
                {
                    if(tileShape(map.tiletypeAt(DFCoord(x,y,z))) == tiletype_shape::SAPLING &&
                        tileSpecial(map.tiletypeAt(DFCoord(x,y,z))) != tiletype_special::DEAD)
                    {
                        tree->grow_counter = Vegetation::sapling_to_tree_threshold;
                    }
                    break;
                }
            }
        }
    }
    else
    {
        int grown = 0;
        for(size_t i = 0 ; i < world->plants.all.size(); i++)
        {
            df::plant *p = world->plants.all[i];
            df::tiletype ttype = map.tiletypeAt(df::coord(p->pos.x,p->pos.y,p->pos.z));
            if(!p->flags.bits.is_shrub && tileShape(ttype) == tiletype_shape::SAPLING && tileSpecial(ttype) != tiletype_special::DEAD)
            {
                p->grow_counter = Vegetation::sapling_to_tree_threshold;
            }
        }
    }

    return CR_OK;
}
예제 #3
0
//Restrict traffice if tile is above visible ice wall.
void restrictIceProc(DFCoord coord, MapExtras::MapCache &map)
{
    //There is no ice below the bottom of the map.
    if (coord.z == 0)
        return;

    DFCoord tile_below = DFCoord(coord.x, coord.y, coord.z - 1);
    df::tiletype tt = map.tiletypeAt(tile_below);
    df::tile_designation des = map.designationAt(tile_below);

    if ((des.bits.hidden == 0) && (tileMaterial(tt) == tiletype_material::FROZEN_LIQUID))
    {
        des = map.designationAt(coord);
        des.bits.traffic = tile_traffic::Restricted;
        map.setDesignationAt(coord, des);
    }
}
예제 #4
0
파일: vdig.cpp 프로젝트: gsvslto/dfhack
DFhackCExport command_result vdig (Core * c, vector <string> & parameters)
{
    uint32_t x_max,y_max,z_max;
    bool updown = false;
    for(int i = 0; i < parameters.size();i++)
    {
        if(parameters.size() && parameters[0]=="x")
            updown = true;
        else if(parameters[i] == "help" || parameters[i] == "?")
        {
            c->con.print("Designates a whole vein under the cursor for digging.\n"
                         "Options:\n"
                         "x        - follow veins through z-levels with stairs.\n"
            );
            return CR_OK;
        }
    }

    Console & con = c->con;

    c->Suspend();
    DFHack::Maps * Maps = c->getMaps();
    DFHack::Gui * Gui = c->getGui();
    // init the map
    if(!Maps->Start())
    {
        con.printerr("Can't init map. Make sure you have a map loaded in DF.\n");
        c->Resume();
        return CR_FAILURE;
    }

    int32_t cx, cy, cz;
    Maps->getSize(x_max,y_max,z_max);
    uint32_t tx_max = x_max * 16;
    uint32_t ty_max = y_max * 16;
    Gui->getCursorCoords(cx,cy,cz);
    while(cx == -30000)
    {
        con.printerr("Cursor is not active. Point the cursor at a vein.\n");
        c->Resume();
        return CR_FAILURE;
    }
    DFHack::DFCoord xy ((uint32_t)cx,(uint32_t)cy,cz);
    if(xy.x == 0 || xy.x == tx_max - 1 || xy.y == 0 || xy.y == ty_max - 1)
    {
        con.printerr("I won't dig the borders. That would be cheating!\n");
        c->Resume();
        return CR_FAILURE;
    }
    MapExtras::MapCache * MCache = new MapExtras::MapCache(Maps);
    DFHack::t_designation des = MCache->designationAt(xy);
    int16_t tt = MCache->tiletypeAt(xy);
    int16_t veinmat = MCache->veinMaterialAt(xy);
    if( veinmat == -1 )
    {
        con.printerr("This tile is not a vein.\n");
        delete MCache;
        c->Resume();
        return CR_FAILURE;
    }
    con.print("%d/%d/%d tiletype: %d, veinmat: %d, designation: 0x%x ... DIGGING!\n", cx,cy,cz, tt, veinmat, des.whole);
    stack <DFHack::DFCoord> flood;
    flood.push(xy);

    while( !flood.empty() )
    {
        DFHack::DFCoord current = flood.top();
        flood.pop();
        int16_t vmat2 = MCache->veinMaterialAt(current);
        tt = MCache->tiletypeAt(current);
        if(!DFHack::isWallTerrain(tt))
            continue;
        if(vmat2!=veinmat)
            continue;

        // found a good tile, dig+unset material
        DFHack::t_designation des = MCache->designationAt(current);
        DFHack::t_designation des_minus;
        DFHack::t_designation des_plus;
        des_plus.whole = des_minus.whole = 0;
        int16_t vmat_minus = -1;
        int16_t vmat_plus = -1;
        bool below = 0;
        bool above = 0;
        if(updown)
        {
            if(MCache->testCoord(current-1))
            {
                below = 1;
                des_minus = MCache->designationAt(current-1);
                vmat_minus = MCache->veinMaterialAt(current-1);
            }

            if(MCache->testCoord(current+1))
            {
                above = 1;
                des_plus = MCache->designationAt(current+1);
                vmat_plus = MCache->veinMaterialAt(current+1);
            }
        }
        if(MCache->testCoord(current))
        {
            MCache->clearMaterialAt(current);
            if(current.x < tx_max - 2)
            {
                flood.push(DFHack::DFCoord(current.x + 1, current.y, current.z));
                if(current.y < ty_max - 2)
                {
                    flood.push(DFHack::DFCoord(current.x + 1, current.y + 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y + 1,current.z));
                }
                if(current.y > 1)
                {
                    flood.push(DFHack::DFCoord(current.x + 1, current.y - 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y - 1,current.z));
                }
            }
            if(current.x > 1)
            {
                flood.push(DFHack::DFCoord(current.x - 1, current.y,current.z));
                if(current.y < ty_max - 2)
                {
                    flood.push(DFHack::DFCoord(current.x - 1, current.y + 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y + 1,current.z));
                }
                if(current.y > 1)
                {
                    flood.push(DFHack::DFCoord(current.x - 1, current.y - 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y - 1,current.z));
                }
            }
            if(updown)
            {
                if(current.z > 0 && below && vmat_minus == vmat2)
                {
                    flood.push(current-1);

                    if(des_minus.bits.dig == DFHack::designation_d_stair)
                        des_minus.bits.dig = DFHack::designation_ud_stair;
                    else
                        des_minus.bits.dig = DFHack::designation_u_stair;
                    MCache->setDesignationAt(current-1,des_minus);

                    des.bits.dig = DFHack::designation_d_stair;
                }
                if(current.z < z_max - 1 && above && vmat_plus == vmat2)
                {
                    flood.push(current+ 1);

                    if(des_plus.bits.dig == DFHack::designation_u_stair)
                        des_plus.bits.dig = DFHack::designation_ud_stair;
                    else
                        des_plus.bits.dig = DFHack::designation_d_stair;
                    MCache->setDesignationAt(current+1,des_plus);

                    if(des.bits.dig == DFHack::designation_d_stair)
                        des.bits.dig = DFHack::designation_ud_stair;
                    else
                        des.bits.dig = DFHack::designation_u_stair;
                }
            }
            if(des.bits.dig == DFHack::designation_no)
                des.bits.dig = DFHack::designation_default;
            MCache->setDesignationAt(current,des);
        }
    }
    MCache->WriteAll();
    c->Resume();
    return CR_OK;
}
예제 #5
0
파일: vdig.cpp 프로젝트: gsvslto/dfhack
DFhackCExport command_result digcircle (Core * c, vector <string> & parameters)
{
    static bool filled = false;
    static circle_what what = circle_set;
    static e_designation type = designation_default;
    static int diameter = 0;
    auto saved_d = diameter;
    bool force_help = false;
    for(int i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            force_help = true;
        }
        else if(parameters[i] == "hollow")
        {
            filled = false;
        }
        else if(parameters[i] == "filled")
        {
            filled = true;
        }
        else if(parameters[i] == "set")
        {
            what = circle_set;
        }
        else if(parameters[i] == "unset")
        {
            what = circle_unset;
        }
        else if(parameters[i] == "invert")
        {
            what = circle_invert;
        }
        else if(parameters[i] == "dig")
        {
            type = designation_default;
        }
        else if(parameters[i] == "ramp")
        {
            type = designation_ramp;
        }
        else if(parameters[i] == "dstair")
        {
            type = designation_d_stair;
        }
        else if(parameters[i] == "ustair")
        {
            type = designation_u_stair;
        }
        else if(parameters[i] == "xstair")
        {
            type = designation_ud_stair;
        }
        else if(parameters[i] == "chan")
        {
            type = designation_channel;
        }
        else if (!from_string(diameter,parameters[i], std::dec))
        {
            diameter = saved_d;
        }
    }
    if(diameter < 0)
        diameter = -diameter;
    if(force_help || diameter == 0)
    {
        c->con.print(   "A command for easy designation of filled and hollow circles.\n"
                        "\n"
                        "Options:\n"
                        " hollow = Set the circle to hollow (default)\n"
                        " filled = Set the circle to filled\n"
                        "\n"
                        "    set = set designation\n"
                        "  unset = unset current designation\n"
                        " invert = invert current designation\n"
                        "\n"
                        "    dig = normal digging\n"
                        "   ramp = ramp digging\n"
                        " ustair = staircase up\n"
                        " dstair = staircase down\n"
                        " xstair = staircase up/down\n"
                        "   chan = dig channel\n"
                        "\n"
                        "      # = diameter in tiles (default = 0)\n"
                        "\n"
                        "After you have set the options, the command called with no options\n"
                        "repeats with the last selected parameters:\n"
                        "'digcircle filled 3' = Dig a filled circle with radius = 3.\n"
                        "'digcircle' = Do it again.\n"
        );
        return CR_OK;
    }
    int32_t cx, cy, cz;
    c->Suspend();
    Gui * gui = c->getGui();
    Maps * maps = c->getMaps();
    if(!maps->Start())
    {
        c->Resume();
        c->con.printerr("Can't init the map...\n");
        return CR_FAILURE;
    }

    uint32_t x_max, y_max, z_max;
    maps->getSize(x_max,y_max,z_max);

    MapExtras::MapCache MCache (maps);
    if(!gui->getCursorCoords(cx,cy,cz) || cx == -30000)
    {
        c->Resume();
        c->con.printerr("Can't get the cursor coords...\n");
        return CR_FAILURE;
    }
    auto dig = [&](int32_t x, int32_t y, int32_t z) -> bool
    {
        DFCoord at (x,y,z);
        auto b = MCache.BlockAt(at/16);
        if(!b || !b->valid)
            return false;
        if(x == 0 || x == x_max * 16 - 1)
        {
            //c->con.print("not digging map border\n");
            return false;
        }
        if(y == 0 || y == y_max * 16 - 1)
        {
            //c->con.print("not digging map border\n");
            return false;
        }
        uint16_t tt = MCache.tiletypeAt(at);
        t_designation des = MCache.designationAt(at);
        // could be potentially used to locate hidden constructions?
        if(tileMaterial(tt) == CONSTRUCTED && !des.bits.hidden)
            return false;
        TileShape ts = tileShape(tt);
        if(ts == EMPTY)
            return false;
        if(!des.bits.hidden)
        {
            do
            {
                if(isWallTerrain(tt))
                {
                    std::cerr << "allowing tt" << tt << ", is wall\n";
                    break;
                }
                if(isFloorTerrain(tt)
                   && (type == designation_d_stair || type == designation_channel)
                   && ts != TREE_OK
                   && ts != TREE_DEAD
                )
                {
                    std::cerr << "allowing tt" << tt << ", is floor\n";
                    break;
                }
                if(isStairTerrain(tt) && type == designation_channel )
                    break;
                return false;
            }
            while(0);
        }
        switch(what)
        {
            case circle_set:
                if(des.bits.dig == designation_no)
                {
                    des.bits.dig = type;
                }
                break;
            case circle_unset:
                if (des.bits.dig != designation_no)
                {
                    des.bits.dig = designation_no;
                }
            case circle_invert:
                if(des.bits.dig == designation_no)
                {
                    des.bits.dig = type;
                }
                else
                {
                    des.bits.dig = designation_no;
                }
                break;
        }
        std::cerr << "allowing tt" << tt << "\n";
        MCache.setDesignationAt(at,des);
        return true;
    };
    auto lineX = [&](int32_t y1, int32_t y2, int32_t x, int32_t z) -> bool
    {
        for(int32_t y = y1; y <= y2; y++)
        {
            dig(x,y,z);
        }
        return true;
    };
    auto lineY = [&](int32_t x1, int32_t x2, int32_t y, int32_t z) -> bool
    {
        for(int32_t x = x1; x <= x2; x++)
        {
            dig(x,y,z);
        }
        return true;
    };
    int r = diameter / 2;
    int iter;
    bool adjust;
    if(diameter % 2)
    {
        // paint center
        if(filled)
        {
            lineY(cx - r, cx + r, cy, cz);
        }
        else
        {
            dig(cx - r, cy, cz);
            dig(cx + r, cy, cz);
        }
        adjust = false;
        iter = 2;
    }
    else
    {
        adjust = true;
        iter = 1;
    }
    int lastwhole = r;
    for(; iter <= diameter - 1; iter +=2)
    {
        // top, bottom coords
        int top = cy - ((iter + 1) / 2) + adjust;
        int bottom = cy + ((iter + 1) / 2);
        // see where the current 'line' intersects the circle
        double val = std::sqrt(double(diameter*diameter - iter*iter));
        // adjust for circles with odd diameter
        if(!adjust)
            val -= 1;
        // map the found value to the DF grid
        double whole;
        double fraction = std::modf(val / 2.0, & whole);
        if (fraction > 0.5)
            whole += 1.0;
        int right = cx + whole;
        int left = cx - whole + adjust;
        int diff = lastwhole - whole;
        // paint
        if(filled || iter == diameter - 1)
        {
            lineY(left, right, top , cz);
            lineY(left, right, bottom , cz);
        }
        else
        {
            dig(left, top, cz);
            dig(left, bottom, cz);
            dig(right, top, cz);
            dig(right, bottom, cz);
        }
        if(!filled && diff > 1)
        {
            int lright = cx + lastwhole;
            int lleft = cx - lastwhole + adjust;
            lineY(lleft + 1, left - 1, top + 1 , cz);
            lineY(right + 1, lright - 1, top + 1 , cz);
            lineY(lleft + 1, left - 1, bottom - 1 , cz);
            lineY(right + 1, lright - 1, bottom - 1 , cz);
        }
        lastwhole = whole;
    }
    MCache.WriteAll();
    c->Resume();
    return CR_OK;
}
예제 #6
0
파일: vdig.cpp 프로젝트: gsvslto/dfhack
DFhackCExport command_result expdig (Core * c, vector <string> & parameters)
{
    bool force_help = false;
    static explo_how how = EXPLO_NOTHING;
    static explo_what what = EXPLO_HIDDEN;
    for(int i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            force_help = true;
        }
        else if(parameters[i] == "all")
        {
            what = EXPLO_ALL;
        }
        else if(parameters[i] == "hidden")
        {
            what = EXPLO_HIDDEN;
        }
        else if(parameters[i] == "designated")
        {
            what = EXPLO_DESIGNATED;
        }
        else if(parameters[i] == "diag5")
        {
            how = EXPLO_DIAG5;
        }
        else if(parameters[i] == "clear")
        {
            how = EXPLO_CLEAR;
        }
        else if(parameters[i] == "ladder")
        {
            how = EXPLO_LADDER;
        }
        else if(parameters[i] == "cross")
        {
            how = EXPLO_CROSS;
        }
    }
    if(force_help || how == EXPLO_NOTHING)
    {
        c->con.print("This command can be used for exploratory mining.\n"
                     "http://df.magmawiki.com/index.php/DF2010:Exploratory_mining\n"
                     "\n"
                     "There are two variables that can be set: pattern and filter.\n"
                     "Patterns:\n"
                     "  diag5 = diagonals separated by 5 tiles\n"
                     " ladder = A 'ladder' pattern\n"
                     "  clear = Just remove all dig designations\n"
                     "  cross = A cross, exactly in the middle of the map.\n"
                     "Filters:\n"
                     " all        = designate whole z-level\n"
                     " hidden     = designate only hidden tiles of z-level (default)\n"
                     " designated = Take current designation and apply pattern to it.\n"
                     "\n"
                     "After you have a pattern set, you can use 'expdig' to apply it:\n"
                     "'expdig diag5 hidden' = set filter to hidden, pattern to diag5.\n"
                     "'expdig' = apply the pattern with filter.\n"
        );
        return CR_OK;
    }
    c->Suspend();
    Gui * gui = c->getGui();
    Maps * maps = c->getMaps();
    uint32_t x_max, y_max, z_max;
    if(!maps->Start())
    {
        c->Resume();
        c->con.printerr("Can't init the map...\n");
        return CR_FAILURE;
    }
    maps->getSize(x_max,y_max,z_max);
    int32_t xzzz,yzzz,z_level;
    if(!gui->getViewCoords(xzzz,yzzz,z_level))
    {
        c->Resume();
        c->con.printerr("Can't get view coords...\n");
        return CR_FAILURE;
    }
    auto apply = [&](uint32_t bx, uint32_t by, digmask & dm) -> bool
    {
        df_block * bl = maps->getBlock(bx,by,z_level);
        if(!bl)
            return false;
        int x = 0,mx = 16;
        if(bx == 0)
            x = 1;
        if(bx == x_max - 1)
            mx = 15;
        for(; x < mx; x++)
        {
            int y = 0,my = 16;
            if(by == 0)
                y = 1;
            if(by == y_max - 1)
                my = 15;
            for(; y < my; y++)
            {
                naked_designation & des = bl->designation[x][y].bits;
                short unsigned int tt = bl->tiletype[x][y];
                // could be potentially used to locate hidden constructions?
                if(tileMaterial(tt) == CONSTRUCTED && !des.hidden)
                    continue;
                if(!isWallTerrain(tt) && !des.hidden)
                    continue;
                if(how == EXPLO_CLEAR)
                {
                    des.dig = designation_no;
                    continue;
                }
                if(dm[y][x])
                {
                    if(what == EXPLO_ALL
                        || des.dig == designation_default && what == EXPLO_DESIGNATED
                        || des.hidden && what == EXPLO_HIDDEN)
                    {
                        des.dig = designation_default;
                    }
                }
                else if(what == EXPLO_DESIGNATED)
                {
                    des.dig = designation_no;
                }
            }
        }
        bl->flags.set(BLOCK_DESIGNATED);
        return true;
    };
    if(how == EXPLO_DIAG5)
    {
        int which;
        for(uint32_t x = 0; x < x_max; x++)
        {
            for(int32_t y = 0 ; y < y_max; y++)
            {
                which = (4*x + y) % 5;
                apply(x,y_max - 1 - y,diag5[which]);
            }
        }
    }
    else if(how == EXPLO_LADDER)
    {
        int which;
        for(uint32_t x = 0; x < x_max; x++)
        {
            which = x % 3;
            for(int32_t y = 0 ; y < y_max; y++)
            {
                apply(x,y,ladder[which]);
            }
        }
    }
    else if(how == EXPLO_CROSS)
    {
        // middle + recentering for the image
        int xmid = x_max * 8 - 8;
        int ymid = y_max * 8 - 8;
        MapExtras::MapCache mx (maps);
        for(int x = 0; x < 16; x++)
            for(int y = 0; y < 16; y++)
            {
                DFCoord pos(xmid+x,ymid+y,z_level);
                short unsigned int tt = mx.tiletypeAt(pos);
                if(tt == 0)
                    continue;
                t_designation des = mx.designationAt(pos);
                if(tileMaterial(tt) == CONSTRUCTED && !des.bits.hidden)
                    continue;
                if(!isWallTerrain(tt) && !des.bits.hidden)
                    continue;
                if(cross[y][x])
                {
                    des.bits.dig = designation_default;
                    mx.setDesignationAt(pos,des);
                }
            }
        mx.WriteAll();
    }
    else for(uint32_t x = 0; x < x_max; x++)
        for(int32_t y = 0 ; y < y_max; y++)
            apply(x,y,all_tiles);
    c->Resume();
    return CR_OK;
}
예제 #7
0
DFhackCExport command_result filltraffic(DFHack::Core * c, std::vector<std::string> & params)
{
	//Maximum map size.
	uint32_t x_max,y_max,z_max;
	//Source and target traffic types.
	e_traffic source = traffic_normal;
	e_traffic target = traffic_normal;
	//Option flags
	bool updown        = false;
	bool checkpit      = true;
	bool checkbuilding = true;

	//Loop through parameters
    for(int i = 0; i < params.size();i++)
    {
        if(params[i] == "help" || params[i] == "?")
        {
            c->con.print("Flood-fill selected traffic type from the cursor.\n"
                         "Traffic Type Codes:\n"
                         "\tH: High Traffic\n"
                         "\tN: Normal Traffic\n"
                         "\tL: Low Traffic\n"
                         "\tR: Restricted Traffic\n"
                         "Other Options:\n"
                         "\tX: Fill accross z-levels.\n"
                         "\tB: Include buildings and stockpiles.\n"
                         "\tP: Include empty space.\n"
                         "Example:\n"
                         "'filltraffic H' - When used in a room with doors,\n"
                         "                  it will set traffic to HIGH in just that room."
            );
            return CR_OK;
        }

        switch (toupper(params[i][0]))
        {
            case 'H':
                target = traffic_high; break;
            case 'N':
                target = traffic_normal; break;
            case 'L':
                target = traffic_low; break;
            case 'R':
                target = traffic_restricted; break;
            case 'X':
                updown = true; break;
            case 'B':
                checkbuilding = false; break;
            case 'P':
                checkpit = false; break;
        }
    }

    //Initialization.
    c->Suspend();

    DFHack::Maps * Maps = c->getMaps();
    DFHack::Gui * Gui = c->getGui();
    // init the map
    if(!Maps->Start())
    {
        c->con.printerr("Can't init map. Make sure you have a map loaded in DF.\n");
        c->Resume();
        return CR_FAILURE;
    }

	int32_t cx, cy, cz;
    Maps->getSize(x_max,y_max,z_max);
    uint32_t tx_max = x_max * 16;
    uint32_t ty_max = y_max * 16;
    Gui->getCursorCoords(cx,cy,cz);
    while(cx == -30000)
    {
        c->con.printerr("Cursor is not active.\n");
        c->Resume();
        return CR_FAILURE;
    }

    DFHack::DFCoord xy ((uint32_t)cx,(uint32_t)cy,cz);
    MapExtras::MapCache * MCache = new MapExtras::MapCache(Maps);

    DFHack::t_designation des = MCache->designationAt(xy);
    int16_t tt = MCache->tiletypeAt(xy);
    DFHack::t_occupancy oc;

    if (checkbuilding)
        oc = MCache->occupancyAt(xy);

    source = des.bits.traffic;
    if(source == target)
    {
        c->con.printerr("This tile is already set to the target traffic type.\n");
        delete MCache;
        c->Resume();
        return CR_FAILURE;
    }

    if(DFHack::isWallTerrain(tt))
    {
        c->con.printerr("This tile is a wall. Please select a passable tile.\n");
        delete MCache;
        c->Resume();
        return CR_FAILURE;
    }

	if(checkpit && DFHack::isOpenTerrain(tt))
	{
		c->con.printerr("This tile is a hole. Please select a passable tile.\n");
        delete MCache;
        c->Resume();
        return CR_FAILURE;
	}

	if(checkbuilding && oc.bits.building)
	{
		c->con.printerr("This tile contains a building. Please select an empty tile.\n");
        delete MCache;
        c->Resume();
        return CR_FAILURE;
	}

	c->con.print("%d/%d/%d  ... FILLING!\n", cx,cy,cz);

	//Naive four-way or six-way flood fill with possible tiles on a stack.
	stack <DFHack::DFCoord> flood;
	flood.push(xy);

	while(!flood.empty())
	{
		xy = flood.top();
		flood.pop();

		des = MCache->designationAt(xy);
		if (des.bits.traffic != source) continue;

		tt = MCache->tiletypeAt(xy);

		if(DFHack::isWallTerrain(tt)) continue;
		if(checkpit && DFHack::isOpenTerrain(tt)) continue;

		if (checkbuilding)
		{
			oc = MCache->occupancyAt(xy);
			if(oc.bits.building) continue;
		}

		//This tile is ready.  Set its traffic level and add surrounding tiles.
		if (MCache->testCoord(xy))
		{
			des.bits.traffic = target;
			MCache->setDesignationAt(xy,des);

			if (xy.x > 0)
			{
				flood.push(DFHack::DFCoord(xy.x - 1, xy.y, xy.z));
			}
			if (xy.x < tx_max - 1)
			{
				flood.push(DFHack::DFCoord(xy.x + 1, xy.y, xy.z));
			}
			if (xy.y > 0)
			{
				flood.push(DFHack::DFCoord(xy.x, xy.y - 1, xy.z));
			}
			if (xy.y < ty_max - 1)
			{
				flood.push(DFHack::DFCoord(xy.x, xy.y + 1, xy.z));
			}

			if (updown)
			{
				if (xy.z > 0 && DFHack::LowPassable(tt))
				{
					flood.push(DFHack::DFCoord(xy.x, xy.y, xy.z - 1));
				}
				if (xy.z < z_max && DFHack::HighPassable(tt))
				{
					flood.push(DFHack::DFCoord(xy.x, xy.y, xy.z + 1));
				}
			}

		}
	}

	MCache->WriteAll();
    c->Resume();
    return CR_OK;
}
예제 #8
0
파일: vdig.cpp 프로젝트: TroZ/dfhack
command_result vdig (Core * c, vector <string> & parameters)
{
    // HOTKEY COMMAND: CORE ALREADY SUSPENDED
    uint32_t x_max,y_max,z_max;
    bool updown = false;
    for(size_t i = 0; i < parameters.size();i++)
    {
        if(parameters.size() && parameters[0]=="x")
            updown = true;
        else
            return CR_WRONG_USAGE;
    }

    Console & con = c->con;

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

    int32_t cx, cy, cz;
    Maps::getSize(x_max,y_max,z_max);
    uint32_t tx_max = x_max * 16;
    uint32_t ty_max = y_max * 16;
    Gui::getCursorCoords(cx,cy,cz);
    while(cx == -30000)
    {
        con.printerr("Cursor is not active. Point the cursor at a vein.\n");
        return CR_FAILURE;
    }
    DFHack::DFCoord xy ((uint32_t)cx,(uint32_t)cy,cz);
    if(xy.x == 0 || xy.x == tx_max - 1 || xy.y == 0 || xy.y == ty_max - 1)
    {
        con.printerr("I won't dig the borders. That would be cheating!\n");
        return CR_FAILURE;
    }
    MapExtras::MapCache * MCache = new MapExtras::MapCache;
    df::tile_designation des = MCache->designationAt(xy);
    df::tiletype tt = MCache->tiletypeAt(xy);
    int16_t veinmat = MCache->veinMaterialAt(xy);
    if( veinmat == -1 )
    {
        con.printerr("This tile is not a vein.\n");
        delete MCache;
        return CR_FAILURE;
    }
    con.print("%d/%d/%d tiletype: %d, veinmat: %d, designation: 0x%x ... DIGGING!\n", cx,cy,cz, tt, veinmat, des.whole);
    stack <DFHack::DFCoord> flood;
    flood.push(xy);

    while( !flood.empty() )
    {
        DFHack::DFCoord current = flood.top();
        flood.pop();
        int16_t vmat2 = MCache->veinMaterialAt(current);
        tt = MCache->tiletypeAt(current);
        if(!DFHack::isWallTerrain(tt))
            continue;
        if(vmat2!=veinmat)
            continue;

        // found a good tile, dig+unset material
        df::tile_designation des = MCache->designationAt(current);
        df::tile_designation des_minus;
        df::tile_designation des_plus;
        des_plus.whole = des_minus.whole = 0;
        int16_t vmat_minus = -1;
        int16_t vmat_plus = -1;
        bool below = 0;
        bool above = 0;
        if(updown)
        {
            if(MCache->testCoord(current-1))
            {
                below = 1;
                des_minus = MCache->designationAt(current-1);
                vmat_minus = MCache->veinMaterialAt(current-1);
            }

            if(MCache->testCoord(current+1))
            {
                above = 1;
                des_plus = MCache->designationAt(current+1);
                vmat_plus = MCache->veinMaterialAt(current+1);
            }
        }
        if(MCache->testCoord(current))
        {
            MCache->clearMaterialAt(current);
            if(current.x < tx_max - 2)
            {
                flood.push(DFHack::DFCoord(current.x + 1, current.y, current.z));
                if(current.y < ty_max - 2)
                {
                    flood.push(DFHack::DFCoord(current.x + 1, current.y + 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y + 1,current.z));
                }
                if(current.y > 1)
                {
                    flood.push(DFHack::DFCoord(current.x + 1, current.y - 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y - 1,current.z));
                }
            }
            if(current.x > 1)
            {
                flood.push(DFHack::DFCoord(current.x - 1, current.y,current.z));
                if(current.y < ty_max - 2)
                {
                    flood.push(DFHack::DFCoord(current.x - 1, current.y + 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y + 1,current.z));
                }
                if(current.y > 1)
                {
                    flood.push(DFHack::DFCoord(current.x - 1, current.y - 1,current.z));
                    flood.push(DFHack::DFCoord(current.x, current.y - 1,current.z));
                }
            }
            if(updown)
            {
                if(current.z > 0 && below && vmat_minus == vmat2)
                {
                    flood.push(current-1);

                    if(des_minus.bits.dig == tile_dig_designation::DownStair)
                        des_minus.bits.dig = tile_dig_designation::UpDownStair;
                    else
                        des_minus.bits.dig = tile_dig_designation::UpStair;
                    MCache->setDesignationAt(current-1,des_minus);

                    des.bits.dig = tile_dig_designation::DownStair;
                }
                if(current.z < z_max - 1 && above && vmat_plus == vmat2)
                {
                    flood.push(current+ 1);

                    if(des_plus.bits.dig == tile_dig_designation::UpStair)
                        des_plus.bits.dig = tile_dig_designation::UpDownStair;
                    else
                        des_plus.bits.dig = tile_dig_designation::DownStair;
                    MCache->setDesignationAt(current+1,des_plus);

                    if(des.bits.dig == tile_dig_designation::DownStair)
                        des.bits.dig = tile_dig_designation::UpDownStair;
                    else
                        des.bits.dig = tile_dig_designation::UpStair;
                }
            }
            if(des.bits.dig == tile_dig_designation::No)
                des.bits.dig = tile_dig_designation::Default;
            MCache->setDesignationAt(current,des);
        }
    }
    MCache->WriteAll();
    return CR_OK;
}
예제 #9
0
파일: vdig.cpp 프로젝트: TroZ/dfhack
command_result expdig (Core * c, vector <string> & parameters)
{
    bool force_help = false;
    static explo_how how = EXPLO_NOTHING;
    static explo_what what = EXPLO_HIDDEN;
    for(size_t i = 0; i < parameters.size();i++)
    {
        if(parameters[i] == "help" || parameters[i] == "?")
        {
            force_help = true;
        }
        else if(parameters[i] == "all")
        {
            what = EXPLO_ALL;
        }
        else if(parameters[i] == "hidden")
        {
            what = EXPLO_HIDDEN;
        }
        else if(parameters[i] == "designated")
        {
            what = EXPLO_DESIGNATED;
        }
        else if(parameters[i] == "diag5")
        {
            how = EXPLO_DIAG5;
        }
        else if(parameters[i] == "diag5r")
        {
            how = EXPLO_DIAG5R;
        }
        else if(parameters[i] == "clear")
        {
            how = EXPLO_CLEAR;
        }
        else if(parameters[i] == "ladder")
        {
            how = EXPLO_LADDER;
        }
        else if(parameters[i] == "ladderr")
        {
            how = EXPLO_LADDERR;
        }
        else if(parameters[i] == "cross")
        {
            how = EXPLO_CROSS;
        }
    }
    if(force_help || how == EXPLO_NOTHING)
    {
        c->con.print(
            "This command can be used for exploratory mining.\n"
            "http://dwarffortresswiki.org/Exploratory_mining\n"
            "\n"
            "There are two variables that can be set: pattern and filter.\n"
            "Patterns:\n"
            "  diag5 = diagonals separated by 5 tiles\n"
            " diag5r = diag5 rotated 90 degrees\n"
            " ladder = A 'ladder' pattern\n"
            "ladderr = ladder rotated 90 degrees\n"
            "  clear = Just remove all dig designations\n"
            "  cross = A cross, exactly in the middle of the map.\n"
            "Filters:\n"
            " all        = designate whole z-level\n"
            " hidden     = designate only hidden tiles of z-level (default)\n"
            " designated = Take current designation and apply pattern to it.\n"
            "\n"
            "After you have a pattern set, you can use 'expdig' to apply it:\n"
            "'expdig diag5 hidden' = set filter to hidden, pattern to diag5.\n"
            "'expdig' = apply the pattern with filter.\n"
            );
        return CR_OK;
    }
    CoreSuspender suspend(c);
    uint32_t x_max, y_max, z_max;
    if (!Maps::IsValid())
    {
        c->con.printerr("Map is not available!\n");
        return CR_FAILURE;
    }
    Maps::getSize(x_max,y_max,z_max);
    int32_t xzzz,yzzz,z_level;
    if(!Gui::getViewCoords(xzzz,yzzz,z_level))
    {
        c->con.printerr("Can't get view coords...\n");
        return CR_FAILURE;
    }
    if(how == EXPLO_DIAG5)
    {
        int which;
        for(uint32_t x = 0; x < x_max; x++)
        {
            for(int32_t y = 0 ; y < y_max; y++)
            {
                which = (4*x + y) % 5;
                stamp_pattern(x,y_max - 1 - y, z_level, diag5[which],
                    how, what, x_max, y_max);
            }
        }
    }
    else if(how == EXPLO_DIAG5R)
    {
        int which;
        for(uint32_t x = 0; x < x_max; x++)
        {
            for(int32_t y = 0 ; y < y_max; y++)
            {
                which = (4*x + 1000-y) % 5;
                stamp_pattern(x,y_max - 1 - y, z_level, diag5r[which],
                    how, what, x_max, y_max);
            }
        }
    }
    else if(how == EXPLO_LADDER)
    {
        int which;
        for(uint32_t x = 0; x < x_max; x++)
        {
            which = x % 3;
            for(int32_t y = 0 ; y < y_max; y++)
            {
                stamp_pattern(x, y, z_level, ladder[which],
                    how, what, x_max, y_max);
            }
        }
    }
    else if(how == EXPLO_LADDERR)
    {
        int which;
        for(int32_t y = 0 ; y < y_max; y++)
        {
            which = y % 3;
            for(uint32_t x = 0; x < x_max; x++)
            {
                stamp_pattern(x, y, z_level, ladderr[which],
                    how, what, x_max, y_max);
            }
        }
    }
    else if(how == EXPLO_CROSS)
    {
        // middle + recentering for the image
        int xmid = x_max * 8 - 8;
        int ymid = y_max * 8 - 8;
        MapExtras::MapCache mx;
        for(int x = 0; x < 16; x++)
            for(int y = 0; y < 16; y++)
            {
                DFCoord pos(xmid+x,ymid+y,z_level);
                df::tiletype tt = mx.tiletypeAt(pos);
                if(tt == tiletype::Void)
                    continue;
                df::tile_designation des = mx.designationAt(pos);
                if(tileMaterial(tt) == tiletype_material::CONSTRUCTION && !des.bits.hidden)
                    continue;
                if(!isWallTerrain(tt) && !des.bits.hidden)
                    continue;
                if(cross[y][x])
                {
                    des.bits.dig = tile_dig_designation::Default;
                    mx.setDesignationAt(pos,des);
                }
            }
            mx.WriteAll();
    }
    else for(uint32_t x = 0; x < x_max; x++)
    {
        for(int32_t y = 0 ; y < y_max; y++)
        {
            stamp_pattern(x, y, z_level, all_tiles,
                how, what, x_max, y_max);
        }
    }
    return CR_OK;
}
예제 #10
0
파일: vdig.cpp 프로젝트: TroZ/dfhack
bool dig (MapExtras::MapCache & MCache,
    circle_what what,
    df::tile_dig_designation type,
    int32_t x, int32_t y, int32_t z,
    int x_max, int y_max
    )
{
    DFCoord at (x,y,z);
    auto b = MCache.BlockAt(at/16);
    if(!b || !b->valid)
        return false;
    if(x == 0 || x == x_max * 16 - 1)
    {
        //c->con.print("not digging map border\n");
        return false;
    }
    if(y == 0 || y == y_max * 16 - 1)
    {
        //c->con.print("not digging map border\n");
        return false;
    }
    df::tiletype tt = MCache.tiletypeAt(at);
    df::tile_designation des = MCache.designationAt(at);
    // could be potentially used to locate hidden constructions?
    if(tileMaterial(tt) == df::tiletype_material::CONSTRUCTION && !des.bits.hidden)
        return false;
    df::tiletype_shape ts = tileShape(tt);
    if (ts == tiletype_shape::EMPTY)
        return false;
    if(!des.bits.hidden)
    {
        do
        {
            df::tiletype_shape_basic tsb = ENUM_ATTR(tiletype_shape, basic_shape, ts);
            if(tsb == tiletype_shape_basic::Wall)
            {
                std::cerr << "allowing tt" << (int)tt << ", is wall\n";
                break;
            }
            if (tsb == tiletype_shape_basic::Floor
                && (type == tile_dig_designation::DownStair || type == tile_dig_designation::Channel)
                && ts != tiletype_shape::TREE
                )
            {
                std::cerr << "allowing tt" << (int)tt << ", is floor\n";
                break;
            }
            if (tsb == tiletype_shape_basic::Stair && type == tile_dig_designation::Channel )
                break;
            return false;
        }
        while(0);
    }
    switch(what)
    {
    case circle_set:
        if(des.bits.dig == tile_dig_designation::No)
        {
            des.bits.dig = type;
        }
        break;
    case circle_unset:
        if (des.bits.dig != tile_dig_designation::No)
        {
            des.bits.dig = tile_dig_designation::No;
        }
        break;
    case circle_invert:
        if(des.bits.dig == tile_dig_designation::No)
        {
            des.bits.dig = type;
        }
        else
        {
            des.bits.dig = tile_dig_designation::No;
        }
        break;
    }
    std::cerr << "allowing tt" << (int)tt << "\n";
    MCache.setDesignationAt(at,des);
    return true;
};
예제 #11
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;
}
예제 #12
0
void Offscreen::drawBuffer( rect2d window,int z,std::vector<screenTile>& buffer )
{
    if(!df::global::world)
        return;

    //TODO static array of images for each tiletype
    MapExtras::MapCache cache;
    int w=window.second.x-window.first.x;
    int h=window.second.y-window.first.y;
    rect2d localWindow=mkrect_wh(0,0,w+1,h+1);
    if(buffer.size()!=w*h)
        buffer.resize(w*h);
    //basic tiletype stuff here
    for(int x=window.first.x;x<window.second.x;x++) //todo, make it by block, minimal improvement over cache prob though
        for(int y=window.first.y;y<window.second.y;y++)
        {
            DFCoord coord(x,y,z);
            df::tiletype tt=cache.tiletypeAt(coord);
            df::tiletype_shape shape = ENUM_ATTR(tiletype,shape,tt);
            df::tiletype_shape_basic basic_shape = ENUM_ATTR(tiletype_shape, basic_shape, shape);
            t_matpair mat=cache.staticMaterialAt(coord);
            df::tiletype_material tileMat= ENUM_ATTR(tiletype,material,tt);
            df::tile_designation d=cache.designationAt(coord);
            df::tile_occupancy o=cache.occupancyAt(coord);
            df::tiletype_special sp=ENUM_ATTR(tiletype,special,tt);

            int wx=x-window.first.x;
            int wy=y-window.first.y;
            screenTile& curTile=buffer[wx*h+wy];
            if(d.bits.hidden)
            {
                curTile.tile=0;
                continue;
            }
            if(shape==df::tiletype_shape::EMPTY || shape==df::tiletype_shape::RAMP_TOP)
            {
                //empty,liquids and '.' for other stuff...
                DFCoord coord2(x,y,z-1);
                df::tiletype tt2=cache.tiletypeAt(coord2);
                df::tiletype_shape shape2 = ENUM_ATTR(tiletype,shape,tt);
                df::tiletype_material tileMat2= ENUM_ATTR(tiletype,material,tt2);
                df::tile_designation d2=cache.designationAt(coord2);
                df::tiletype_special sp2=ENUM_ATTR(tiletype,special,tt2);
                bool unDug2= (sp2!=df::tiletype_special::SMOOTH && shape2==df::tiletype_shape::WALL);
                
                if (d2.bits.flow_size>0)
                {
                    if(shape!=df::tiletype_shape::RAMP_TOP) //don't show liquid amount on ramp tops
                        curTile.tile='0'+d2.bits.flow_size; //TODO lookup setting for this
                    else
                        curTile.tile=tilePics[tt];
                    curTile.fg=(d2.bits.liquid_type)?(COLOR_RED):(COLOR_BLUE);
                    continue;
                }
                else if(shape2==df::tiletype_shape::EMPTY)
                {
                    curTile.tile=178; //look up settings
                    curTile.fg=COLOR_CYAN; 
                    continue;
                }
                else
                {
                    if(shape==df::tiletype_shape::RAMP_TOP)
                        curTile.tile=tilePics[tt];
                    else
                        curTile.tile='.';
                    colorTile(tileMat2,cache,coord2,curTile,unDug2);
                    continue;
                }
            }
            bool inliquid=false;
            bool unDug= (sp!=df::tiletype_special::SMOOTH && shape==df::tiletype_shape::WALL);
            if (d.bits.flow_size>0)
            {
                curTile.tile='0'+d.bits.flow_size;
                curTile.fg=(d.bits.liquid_type)?(COLOR_RED):(COLOR_BLUE);
                curTile.bold=true;
                inliquid=true;
            }    
            if(!inliquid && shape!=df::tiletype_shape::RAMP_TOP)
            {
                curTile.tile=tilePics[tt];
                colorTile(tileMat,cache,coord,curTile,unDug);
                if(!unDug)
                {
                    curTile.bg=0;
                }
            }
            else
            {
                if(shape==df::tiletype_shape::RAMP || shape==df::tiletype_shape::BROOK_BED || shape==df::tiletype_shape::RAMP_TOP)
                    curTile.tile=tilePics[tt];
                if(!inliquid)
                    colorTile(tileMat,cache,coord,curTile,true);
            }

        }
        //plants
        for(int bx=window.first.x/16;bx<=window.second.x/16;bx++) //blocks have items by id. So yeah each item a search would be slow
            for(int by=window.first.y/16;by<=window.second.y/16;by++)
            {
                MapExtras::Block* b=cache.BlockAt(DFCoord(bx,by,z));
                if(!b || !b->getRaw())
                    continue;
                std::vector<df::plant*>& plants=b->getRaw()->plants;
                for(int i=0;i<plants.size();i++)
                {
                    df::plant* p=plants[i];
                    if(p->pos.z==z && isInRect(df::coord2d(p->pos.x,p->pos.y),window))
                    {
                        int wx=p->pos.x-window.first.x;
                        int wy=p->pos.y-window.first.y;
                        screenTile& curTile=buffer[wx*h+wy];
                        drawPlant(p,curTile);
                    }
                }
                std::vector<df::block_square_event*>& events=b->getRaw()->block_events;
                for(size_t i=0;i<events.size();i++)//maybe aggregate all the events to one array and move to a function.
                {
                    df::block_square_event* e=events[i];
                    switch(e->getType())
                    {
                    case df::block_square_event_type::grass:
                        {
                            df::block_square_event_grassst* grass=static_cast<df::block_square_event_grassst*>(e);
                            MaterialInfo mat(419, grass->plant_index);
                            if(mat.isPlant())
                            {
                                df::plant_raw* p=mat.plant;
                                for(int x=0;x<16;x++)
                                for(int y=0;y<16;y++)
                                {
                                    int wx=x+bx*16-window.first.x;
                                    int wy=y+by*16-window.first.y;
                                    if(isInRect(df::coord2d(wx,wy),localWindow) && grass->amount[x][y]>0)
                                    {
                                        screenTile& curTile=buffer[wx*h+wy];
                                        /*
                                        df::tiletype tt=b->tiletypeAt(df::coord2d(x,y));
                                        df::tiletype_special sp=ENUM_ATTR(tiletype,special,tt);
                                        df::tiletype_special::DEAD;
                                        df::tiletype_special::WET;
                                        df::tiletype_special::NORMAL;
                                        +variants
                                        */

                                        curTile.tile=p->tiles.grass_tiles[0];
                                        curTile.fg=p->colors.grass_colors_0[0];
                                        curTile.bg=p->colors.grass_colors_1[0];
                                        curTile.bold=p->colors.grass_colors_2[0];
                                    }
                                    
                                    
                                }
                                
                                
                                
                                //TODO alt-tiles
                            }
                            
                            break;
                        }
                    case df::block_square_event_type::material_spatter:
                        {
                            //liquid:
                            //0 nothing 
                            //1->49 color 
                            //50->99 wave
                            //100->255 two waves
                            //color only, if small
                            //draw waves, if pool
                            df::block_square_event_material_spatterst* spatter=static_cast<df::block_square_event_material_spatterst*>(e);
                            MaterialInfo mat(spatter);
                            if(mat.material)
                            {

                            for(int x=0;x<16;x++)
                                for(int y=0;y<16;y++)
                                {
                                    int wx=x+bx*16-window.first.x;
                                    int wy=y+by*16-window.first.y;
                                    uint8_t amount=spatter->amount[x][y];
                                    if(isInRect(df::coord2d(wx,wy),localWindow) && amount>0)
                                    {
                                        screenTile& curTile=buffer[wx*h+wy];
                                        
                                        curTile.fg=mat.material->tile_color[0];
                                        curTile.bold=mat.material->tile_color[2];
                                        if(spatter->mat_state==df::matter_state::Liquid && amount>49)
                                        {
                                            if(amount>99)
                                                curTile.tile=247;
                                            else
                                                curTile.tile=126;
                                        }
                                    }
                                }
                            }
                            break;
                        }
                    default:;
                    }
                }
                std::vector<df::flow_info*>& flows=b->getRaw()->flows;
                for(size_t i=0;i<flows.size();i++)
                {
                    df::flow_info* f=flows[i];
                    int wx=f->pos.x-window.first.x;
                    int wy=f->pos.y-window.first.y;
                    if(f->density>0 && isInRect(df::coord2d(wx,wy),localWindow))
                    {
                        screenTile& curTile=buffer[wx*h+wy];
                        drawFlow(f,curTile);
                    }
                }
            }
            //in df items blink between stuff, but i don't have time for that
            //also move up, before flows
            std::vector<df::item*>& items=df::global::world->items.other[df::items_other_id::IN_PLAY];
            for(int i=0;i<items.size();i++)
            {
                df::item* it=items[i];
                if(it->flags.bits.on_ground && it->pos.z==z && isInRect(df::coord2d(it->pos.x,it->pos.y),window))
                {
                    int wx=it->pos.x-window.first.x;
                    int wy=it->pos.y-window.first.y;
                    screenTile& curTile=buffer[wx*h+wy];
                    drawItem(it,curTile);
                }
            }
            //buildings
            std::vector<df::building*>& buildings=df::global::world->buildings.all;
            for(int i=0;i<buildings.size();i++)
            {
                df::building* build=buildings[i];


                if(z!=build->z)
                    continue;
                if(!build->isVisibleInUI())
                    continue;
                if(isInRect(df::coord2d(build->x1,build->y1),window)||isInRect(df::coord2d(build->x2,build->y2),window))
                {
                    df::building_drawbuffer drawBuffer;
                    build->getDrawExtents(&drawBuffer);
                    int bw=drawBuffer.x2-drawBuffer.x1;
                    int bh=drawBuffer.y2-drawBuffer.y1;
                    build->drawBuilding(&drawBuffer,0); //might be viewscreen dependant
                    int wx=build->x1-window.first.x;
                    int wy=build->y1-window.first.y;

                    for(int x=0;x<=bw;x++)
                        for(int y=0;y<=bh;y++)
                        {
                            df::coord2d p(x+wx,y+wy);
                            if(isInRect(p,localWindow))
                            {
                                screenTile& curTile=buffer[p.x*h+p.y];
                                if(drawBuffer.tile[x][y]!=32)
                                {
                                    curTile.tile=drawBuffer.tile[x][y];
                                    curTile.fg=drawBuffer.fore[x][y];
                                    curTile.bg=drawBuffer.back[x][y];
                                    curTile.bold=drawBuffer.bright[x][y];
                                }
                            }
                        }
                }
            }
            //units. TODO No multi tile units yet.
            std::vector<df::unit*>& units=df::global::world->units.active;
            for(int i=0;i<units.size();i++)
            {
                df::unit* u=units[i];
                if(!u->flags1.bits.dead && u->pos.z==z && isInRect(df::coord2d(u->pos.x,u->pos.y),window))
                {
                    int wx=u->pos.x-window.first.x;
                    int wy=u->pos.y-window.first.y;
                    screenTile& curTile=buffer[wx*h+wy];
                    drawUnit(u,curTile);
                }
            }
            
}
예제 #13
0
파일: probe.cpp 프로젝트: lxnt/dfhack
command_result df_probe (Core * c, vector <string> & parameters)
{
    //bool showBlock, showDesig, showOccup, showTile, showMisc;
    Console & con = c->con;
    /*
    if (!parseOptions(parameters, showBlock, showDesig, showOccup,
                      showTile, showMisc))
    {
        con.printerr("Unknown parameters!\n");
        return CR_FAILURE;
    }
    */

    CoreSuspender suspend(c);

    DFHack::Gui *Gui = c->getGui();
    DFHack::Materials *Materials = c->getMaterials();
    DFHack::VersionInfo* mem = c->vinfo;
    std::vector<t_matglossInorganic> inorganic;
    bool hasmats = Materials->CopyInorganicMaterials(inorganic);

    if (!Maps::IsValid())
    {
        c->con.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)
    {
        con.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->valid)
    {
        con.printerr("No data.\n");
        return CR_OK;
    }
    mapblock40d & block = b->raw;
    con.print("block addr: 0x%x\n\n", block.origin);
/*
    if (showBlock)
    {
        con.print("block flags:\n");
        print_bits<uint32_t>(block.blockflags.whole,con);
        con.print("\n\n");
    }
*/
    df::tiletype tiletype = mc.tiletypeAt(cursor);
    df::tile_designation &des = block.designation[tileX][tileY];
/*
    if(showDesig)
    {
        con.print("designation\n");
        print_bits<uint32_t>(block.designation[tileX][tileY].whole,
                                con);
        con.print("\n\n");
    }

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

    // tiletype
    con.print("tiletype: %d", tiletype);
    if(tileName(tiletype))
        con.print(" = %s",tileName(tiletype));
    con.print("\n");

    df::tiletype_shape shape = tileShape(tiletype);
    df::tiletype_material material = tileMaterial(tiletype);
    df::tiletype_special special = tileSpecial(tiletype);
    df::tiletype_variant variant = tileVariant(tiletype);
    con.print("%-10s: %4d %s\n","Class"    ,shape,
            ENUM_KEY_STR(tiletype_shape, shape));
    con.print("%-10s: %4d %s\n","Material" ,
            material, ENUM_KEY_STR(tiletype_material, material));
    con.print("%-10s: %4d %s\n","Special"  ,
            special, ENUM_KEY_STR(tiletype_special, special));
    con.print("%-10s: %4d %s\n"   ,"Variant"  ,
            variant, ENUM_KEY_STR(tiletype_variant, variant));
    con.print("%-10s: %s\n"    ,"Direction",
            tileDirection(tiletype).getStr());
    con.print("\n");

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

    // biome, geolayer
    con << "biome: " << des.bits.biome << std::endl;
    con << "geolayer: " << des.bits.geolayer_index
        << std::endl;
    int16_t base_rock = mc.baseMaterialAt(cursor);
    if(base_rock != -1)
    {
        con << "Layer material: " << dec << base_rock;
        if(hasmats)
            con << " / " << inorganic[base_rock].id
                << " / "
                << inorganic[base_rock].name
                << endl;
        else
            con << endl;
    }
    int16_t vein_rock = mc.veinMaterialAt(cursor);
    if(vein_rock != -1)
    {
        con << "Vein material (final): " << dec << vein_rock;
        if(hasmats)
            con << " / " << inorganic[vein_rock].id
                << " / "
                << inorganic[vein_rock].name
                << endl;
        else
            con << endl;
    }
    // liquids
    if(des.bits.flow_size)
    {
        if(des.bits.liquid_type == tile_liquid::Magma)
            con <<"magma: ";
        else con <<"water: ";
        con << des.bits.flow_size << std::endl;
    }
    if(des.bits.flow_forbid)
        con << "flow forbid" << std::endl;
    if(des.bits.pile)
        con << "stockpile?" << std::endl;
    if(des.bits.rained)
        con << "rained?" << std::endl;
    if(des.bits.smooth)
        con << "smooth?" << std::endl;
    if(des.bits.water_salt)
        con << "salty" << endl;
    if(des.bits.water_stagnant)
        con << "stagnant" << endl;

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

    df::coord2d pc(blockX, blockY);

    t_feature local;
    t_feature global;
    Maps::ReadFeatures(&(b->raw),&local,&global);
    PRINT_FLAG( bits.feature_local );
    if(local.type != -1)
    {
        con.print("%-16s", "");
        con.print("  %4d", block.local_feature);
        con.print(" (%2d)", local.type);
        con.print(" addr 0x%X ", local.origin);
        con.print(" %s\n", sa_feature(local.type));
    }
    PRINT_FLAG( bits.feature_global );
    if(global.type != -1)
    {
        con.print("%-16s", "");
        con.print("  %4d", block.global_feature);
        con.print(" (%2d)", global.type);
        con.print(" %s\n", sa_feature(global.type));
    }
    #undef PRINT_FLAG
    con << "local feature idx: " << block.local_feature
        << endl;
    con << "global feature idx: " << block.global_feature
        << endl;
    con << "mystery: " << block.mystery << endl;
    con << std::endl;
    return CR_OK;
}
예제 #14
0
command_result filltraffic(color_ostream &out, std::vector<std::string> & params)
{
    // HOTKEY COMMAND; CORE ALREADY SUSPENDED

    //Maximum map size.
    uint32_t x_max,y_max,z_max;
    //Source and target traffic types.
    df::tile_traffic source = tile_traffic::Normal;
    df::tile_traffic target = tile_traffic::Normal;
    //Option flags
    bool updown        = false;
    bool checkpit      = true;
    bool checkbuilding = true;

    //Loop through parameters
    for(size_t i = 0; i < params.size();i++)
    {
        if (params[i] == "help" || params[i] == "?" || params[i].size() != 1)
            return CR_WRONG_USAGE;

        switch (toupper(params[i][0]))
        {
        case 'H':
            target = tile_traffic::High; break;
        case 'N':
            target = tile_traffic::Normal; break;
        case 'L':
            target = tile_traffic::Low; break;
        case 'R':
            target = tile_traffic::Restricted; break;
        case 'X':
            updown = true; break;
        case 'B':
            checkbuilding = false; break;
        case 'P':
            checkpit = false; break;
        default:
            return CR_WRONG_USAGE;
        }
    }

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

    int32_t cx, cy, cz;
    Maps::getSize(x_max,y_max,z_max);
    uint32_t tx_max = x_max * 16;
    uint32_t ty_max = y_max * 16;
    Gui::getCursorCoords(cx,cy,cz);
    while(cx == -30000)
    {
        out.printerr("Cursor is not active.\n");
        return CR_FAILURE;
    }

    DFCoord xy ((uint32_t)cx,(uint32_t)cy,cz);
    MapExtras::MapCache MCache;

    df::tile_designation des = MCache.designationAt(xy);
    df::tiletype tt = MCache.tiletypeAt(xy);
    df::tile_occupancy oc;

    if (checkbuilding)
        oc = MCache.occupancyAt(xy);

    source = (df::tile_traffic)des.bits.traffic;
    if(source == target)
    {
        out.printerr("This tile is already set to the target traffic type.\n");
        return CR_FAILURE;
    }

    if(isWallTerrain(tt))
    {
        out.printerr("This tile is a wall. Please select a passable tile.\n");
        return CR_FAILURE;
    }

    if(checkpit && isOpenTerrain(tt))
    {
        out.printerr("This tile is a hole. Please select a passable tile.\n");
        return CR_FAILURE;
    }

    if(checkbuilding && oc.bits.building)
    {
        out.printerr("This tile contains a building. Please select an empty tile.\n");
        return CR_FAILURE;
    }

    out.print("%d/%d/%d  ... FILLING!\n", cx,cy,cz);

    //Naive four-way or six-way flood fill with possible tiles on a stack.
    stack <DFCoord> flood;
    flood.push(xy);

    while(!flood.empty())
    {
        xy = flood.top();
        flood.pop();

        des = MCache.designationAt(xy);
        if (des.bits.traffic != source) continue;

        tt = MCache.tiletypeAt(xy);

        if(isWallTerrain(tt)) continue;
        if(checkpit && isOpenTerrain(tt)) continue;

        if (checkbuilding)
        {
            oc = MCache.occupancyAt(xy);
            if(oc.bits.building) continue;
        }

        //This tile is ready.  Set its traffic level and add surrounding tiles.
        if (MCache.testCoord(xy))
        {
            des.bits.traffic = target;
            MCache.setDesignationAt(xy,des);

            if (xy.x > 0)
            {
                flood.push(DFCoord(xy.x - 1, xy.y, xy.z));
            }
            if (xy.x < int32_t(tx_max) - 1)
            {
                flood.push(DFCoord(xy.x + 1, xy.y, xy.z));
            }
            if (xy.y > 0)
            {
                flood.push(DFCoord(xy.x, xy.y - 1, xy.z));
            }
            if (xy.y < int32_t(ty_max) - 1)
            {
                flood.push(DFCoord(xy.x, xy.y + 1, xy.z));
            }

            if (updown)
            {
                if (xy.z > 0 && LowPassable(tt))
                {
                    flood.push(DFCoord(xy.x, xy.y, xy.z - 1));
                }
                if (xy.z < int32_t(z_max) && HighPassable(tt))
                {
                    flood.push(DFCoord(xy.x, xy.y, xy.z + 1));
                }
            }

        }
    }

    MCache.WriteAll();
    return CR_OK;
}