Exemple #1
0
int main ()
{
    DFHack::Process * p;
    unsigned int i;
    DFHack::ContextManager DFMgr("Memory.xml");
    DFHack::Context * DF;
    try
    {
        DF = DFMgr.getSingleContext();
        DF->Attach();
    }
    catch (exception& e)
    {
        cerr << e.what() << endl;
#ifndef LINUX_BUILD
        cin.ignore();
#endif
        return 1;
    }

    DFHack::VersionInfo * mem = DF->getMemoryInfo();
    p = DF->getProcess();
    uint32_t item_vec_offset = 0;
    try
    {
        item_vec_offset = p->getDescriptor()->getAddress ("items_vector");
    }
    catch(DFHack::Error::AllMemdef & e)
    {
        cerr << "missing offset for the item vector, exiting :(" << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }

    DFHack::DfVector <uint32_t> p_items (p, item_vec_offset);
    uint32_t size = p_items.size();

    int numtasked = 0;
    for (i=0;i<size;i++)
    {
        DFHack::t_itemflags flags;
        flags.whole = p->readDWord(p_items[i] + 0x0C);
        if (flags.bits.in_job)
        {
            flags.bits.in_job = 0;
            p->writeDWord(p_items[i] + 0x0C, flags.whole);
            numtasked++;
        }
    }
    cout << "Found and untasked " << numtasked << " items." << endl;

#ifndef LINUX_BUILD
    cout << "Done. Press any key to continue" << endl;
    cin.ignore();
#endif
    return 0;
}
Exemple #2
0
int main (int numargs, const char ** args)
{
    map<string, string> buildCommands;
    buildCommands["building_stockpilest"]="";
    buildCommands["building_zonest"]="";
    buildCommands["building_construction_blueprintst"]="";
    buildCommands["building_wagonst"]="";
    buildCommands["building_armor_standst"]="a";
    buildCommands["building_bedst"]="b";
    buildCommands["building_seatst"]="c";
    buildCommands["building_burial_receptaclest"]="n";
    buildCommands["building_doorst"]="d";
    buildCommands["building_floodgatest"]="x";
    buildCommands["building_floor_hatchst"]="H";
    buildCommands["building_wall_gratest"]="W";
    buildCommands["building_floor_gratest"]="G";
    buildCommands["building_vertical_barsst"]="B";
    buildCommands["building_floor_barsst"]="alt-b";
    buildCommands["building_cabinetst"]="f";
    buildCommands["building_containerst"]="h";
    buildCommands["building_shopst"]="";
    buildCommands["building_workshopst"]="";
    buildCommands["building_alchemists_laboratoryst"]="wa";
    buildCommands["building_carpenters_workshopst"]="wc";
    buildCommands["building_farmers_workshopst"]="ww";
    buildCommands["building_masons_workshopst"]="wm";
    buildCommands["building_craftdwarfs_workshopst"]="wr";
    buildCommands["building_jewelers_workshopst"]="wj";
    buildCommands["building_metalsmiths_workshopst"]="wf";
    buildCommands["building_magma_forgest"]="";
    buildCommands["building_bowyers_workshopst"]="wb";
    buildCommands["building_mechanics_workshopst"]="wt";
    buildCommands["building_siege_workshopst"]="ws";
    buildCommands["building_butchers_shopst"]="wU";
    buildCommands["building_leather_worksst"]="we";
    buildCommands["building_tanners_shopst"]="wn";
    buildCommands["building_clothiers_shopst"]="wk";
    buildCommands["building_fisheryst"]="wh";
    buildCommands["building_stillst"]="wl";
    buildCommands["building_loomst"]="wo";
    buildCommands["building_quernst"]="wq";
    buildCommands["building_kennelsst"]="k";
    buildCommands["building_kitchenst"]="wz";
    buildCommands["building_asheryst"]="wy";
    buildCommands["building_dyers_shopst"]="wd";
    buildCommands["building_millstonest"]="wM";
    buildCommands["building_farm_plotst"]="p";
    buildCommands["building_weapon_rackst"]="r";
    buildCommands["building_statuest"]="s";
    buildCommands["building_tablest"]="t";
    buildCommands["building_paved_roadst"]="o";
    buildCommands["building_bridgest"]="g";
    buildCommands["building_wellst"]="l";
    buildCommands["building_siege enginest"]="i";
    buildCommands["building_catapultst"]="ic";
    buildCommands["building_ballistast"]="ib";
    buildCommands["building_furnacest"]="";
    buildCommands["building_wood_furnacest"]="ew";
    buildCommands["building_smelterst"]="es";
    buildCommands["building_glass_furnacest"]="ek";
    buildCommands["building_kilnst"]="ek";
    buildCommands["building_magma_smelterst"]="es";
    buildCommands["building_magma_glass_furnacest"]="ek";
    buildCommands["building_magma_kilnst"]="ek";
    buildCommands["building_glass_windowst"]="y";
    buildCommands["building_gem_windowst"]="Y";
    buildCommands["building_tradedepotst"]="D";
    buildCommands["building_mechanismst"]="";
    buildCommands["building_leverst"]="Tl";
    buildCommands["building_pressure_platest"]="Tp";
    buildCommands["building_cage_trapst"]="Tc";
    buildCommands["building_stonefall_trapst"]="Ts";
    buildCommands["building_weapon_trapst"]="Tw";
    buildCommands["building_spikest"]="";
    buildCommands["building_animal_trapst"]="m";
    buildCommands["building_screw_pumpst"]="Ms";
    buildCommands["building_water_wheelst"]="Mw";
    buildCommands["building_windmillst"]="Mm";
    buildCommands["building_gear_assemblyst"]="Mg";
    buildCommands["building_horizontal_axlest"]="Mh";
    buildCommands["building_vertical_axlest"]="Mv";
    buildCommands["building_supportst"]="S";
    buildCommands["building_cagest"]="j";
    buildCommands["building_archery_targetst"]="A";
    buildCommands["building_restraintst"]="v";

    DFHack::ContextManager DFMgr("Memory.xml");
    DFHack::Context *DF = DFMgr.getSingleContext();
    
    try
    {
        DF->Attach();
    }
    catch (std::exception& e)
    {
        std::cerr << e.what() << std::endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }
    
    DFHack::Gui *Gui = DF->getGui();
    DFHack::VersionInfo* mem = DF->getMemoryInfo();
    DFHack::Process * p = DF->getProcess();
    OffsetGroup * OG_Maps = mem->getGroup("Maps");
    OffsetGroup * OG_MapBlock = OG_Maps->getGroup("block");
    OffsetGroup * OG_LocalFt = OG_Maps->getGroup("features")->getGroup("local");
    uint32_t designations = OG_MapBlock->getOffset("designation");
    uint32_t block_feature1 = OG_MapBlock->getOffset("feature_local");
    uint32_t block_feature2 = OG_MapBlock->getOffset("feature_global");
    uint32_t region_x_offset = OG_Maps->getAddress("region_x");
    uint32_t region_y_offset = OG_Maps->getAddress("region_y");
    uint32_t region_z_offset = OG_Maps->getAddress("region_z");
    uint32_t feature1_start_ptr = OG_LocalFt->getAddress("start_ptr");
    int32_t regionX, regionY, regionZ;
    
    // read position of the region inside DF world
    p->readDWord (region_x_offset, (uint32_t &)regionX);
    p->readDWord (region_y_offset, (uint32_t &)regionY);
    p->readDWord (region_z_offset, (uint32_t &)regionZ);
    while(1){
    int32_t cx1,cy1,cz1;
    cx1 = -30000;
    while(cx1 == -30000)
    {
        DF->ForceResume();
        cout << "Set cursor at first position, then press any key";
        cin.ignore();
        DF->Suspend();
        Gui->getCursorCoords(cx1,cy1,cz1);
    }

    uint32_t tx1,ty1,tz1;
    tx1 = cx1/16;
    ty1 = cy1/16;
    tz1 = cz1;

    int32_t cx2,cy2,cz2;
    cx2 = -30000;
    while(cx2 == -30000)
    {
        DF->Resume();
        cout << "Set cursor at second position, then press any key";
        cin.ignore();
        DF->Suspend();
        Gui->getCursorCoords(cx2,cy2,cz2);
    }
    uint32_t tx2,ty2,tz2;
    tx2 = cx2/16;
    ty2 = cy2/16;
    tz2 = cz2;
    sort(tx1,tx2);
    sort(ty1,ty2);
    sort(tz1,tz2);
    sort(cx1,cx2);
    sort(cy1,cy2);
    sort(cz1,cz2);

    vector <vector<vector<string> > >dig(cz2-cz1+1,vector<vector<string> >(cy2-cy1+1,vector<string>(cx2-cx1+1)));
    vector <vector<vector<string> > >build(cz2-cz1+1,vector<vector<string> >(cy2-cy1+1,vector<string>(cx2-cx1+1)));
    mapblock40d block;
    DFHack::Maps *Maps = DF->getMaps();
    Maps->Start();
    for(uint32_t y = ty1;y<=ty2;y++)
    {
        for(uint32_t x = tx1;x<=tx2;x++)
        {
            for(uint32_t z = tz1;z<=tz2;z++)
            {
                if(Maps->isValidBlock(x,y,z))
                {
                    if(Maps->ReadBlock40d(x,y,z,&block))
                    {
                        int ystart,yend,xstart,xend;
                        ystart=xstart=0;
                        yend=xend=15;
                        if(y == ty2)
                        {
                            yend = cy2 % 16;
                        }
                        if(y == ty1)
                        {
                            ystart = cy1 % 16;
                        }
                        if(x == tx2)
                        {
                            xend = cx2 % 16;
                        }
                        if(x == tx1)
                        {
                            xstart = cx1 % 16;
                        }
                        int zidx = z-tz1;
                        for(int yy = ystart; yy <= yend;yy++)
                        {
                            int yidx = yy+(16*(y-ty1)-(cy1%16));
                            for(int xx = xstart; xx <= xend;xx++)
                            {
                                int xidx = xx+(16*(x-tx1)-(cx1%16));
                                int16_t tt = block.tiletypes[xx][yy];
                                DFHack::TileShape ts = DFHack::tileShape(tt);
                                if(DFHack::isOpenTerrain(tt) || DFHack::isFloorTerrain(tt))
                                {
                                    dig[zidx][yidx][xidx] = "d";
                                }
                                else if(DFHack::STAIR_DOWN == ts)
                                {
                                    dig [zidx][yidx][xidx] = "j";
                                    build [zidx][yidx][xidx] = "Cd";
                                }
                                else if(DFHack::STAIR_UP == ts)
                                {
                                    dig [zidx][yidx][xidx] = "u";
                                    build [zidx][yidx][xidx] = "Cu";
                                }
                                else if(DFHack::STAIR_UPDOWN == ts)
                                {
                                    dig [zidx][yidx][xidx] = "i";
                                    build [zidx][yidx][xidx] = "Cx";
                                }
                                else if(DFHack::isRampTerrain(tt))
                                {
                                    dig [zidx][yidx][xidx] = "r";
                                    build [zidx][yidx][xidx] = "Cr";
                                }
                                else if(DFHack::isWallTerrain(tt))
                                {
                                    build [zidx][yidx][xidx] = "Cw";
                                }
                            }
                            yidx++;
                        }
                    }
                }
            }
        }
    }
    DFHack::Buildings * Bld = DF->getBuildings();
    std::map <uint32_t, std::string> custom_workshop_types;
    uint32_t numBuildings;
    if(Bld->Start(numBuildings))
    {
        Bld->ReadCustomWorkshopTypes(custom_workshop_types);
        for(uint32_t i = 0; i < numBuildings; i++)
        {
            DFHack::t_building temp;
            Bld->Read(i, temp);
            if(temp.type != 0xFFFFFFFF) // check if type isn't invalid
            {
                std::string typestr;
                mem->resolveClassIDToClassname(temp.type, typestr);
                if(temp.z == cz1 && cx1 <= temp.x1 && cx2 >= temp.x2 && cy1 <= temp.y1 && cy2 >= temp.y2)
                {
                    string currStr = build[temp.z-cz1][temp.y1-cy1][temp.x1-cx1];
                    stringstream stream;
                    string newStr = buildCommands[typestr];
                    if(temp.x1 != temp.x2)
                    {
                        stream << "(" << temp.x2-temp.x1+1 << "x" << temp.y2-temp.y1+1 << ")";
                        newStr += stream.str();
                    }
                    build[temp.z-cz1][temp.y1-cy1][temp.x1-cx1] = newStr + currStr;
                }
            }
        }
    }
// for testing purposes
    //ofstream outfile("test.txt");
//    printVecOfVec(outfile, dig,'\t');
//    outfile << endl;
//   printVecOfVec(outfile, build,'\t');
//    outfile << endl;
//    outfile.close();

    int32_t cx3,cy3,cz3,cx4,cy4,cz4;
    uint32_t tx3,ty3,tz3,tx4,ty4,tz4;
    char result;
    while(1){
        cx3 = -30000;
        while(cx3 == -30000){
            DF->Resume();
            cout << "Set cursor at new position, then press any key:";
            result = cin.get();
            DF->Suspend();
            Gui->getCursorCoords(cx3,cy3,cz3);
        }
        if(result == 'q'){
            break;
        }
        cx4 = cx3+cx2-cx1;
        cy4 = cy3+cy2-cy1;
        cz4 = cz3+cz2-cz1;
        tx3=cx3/16;
        ty3=cy3/16;
        tz3=cz3;
        tx4=cx4/16;
        ty4=cy4/16;
        tz4=cz4;
        DFHack::WindowIO * Win = DF->getWindowIO();
        designations40d designationBlock;
        for(uint32_t y = ty3;y<=ty4;y++)
        {
            for(uint32_t x = tx3;x<=tx4;x++)
            {
                for(uint32_t z = tz3;z<=tz4;z++)
                {
                    Maps->Start();
                    Maps->ReadBlock40d(x,y,z,&block);
                    Maps->ReadDesignations(x,y,z,&designationBlock);
                    int ystart,yend,xstart,xend;
                    ystart=xstart=0;
                    yend=xend=15;
                    if(y == ty4){
                        yend = cy4 % 16;
                    }
                    if(y == ty3){
                        ystart = cy3 % 16;
                    }
                    if(x == tx4){
                        xend = cx4 % 16;
                    }
                    if(x == tx3){
                        xstart = cx3 % 16;
                    }
                    int zidx = z-tz3;
                    for(int yy = ystart; yy <= yend;yy++){
                        int yidx = yy+(16*(y-ty3)-(cy3%16));
                        for(int xx = xstart; xx <= xend;xx++){
                            int xidx = xx+(16*(x-tx3)-(cx3%16));
                                if(dig[zidx][yidx][xidx] != ""){
                                    char test = dig[zidx][yidx][xidx].c_str()[0];
                                    switch (test){
                                        case 'd':
                                            designationBlock[xx][yy].bits.dig = DFHack::designation_default;
                                            break;
                                        case 'i':
                                            designationBlock[xx][yy].bits.dig = DFHack::designation_ud_stair;
                                            break;
                                        case 'u':
                                            designationBlock[xx][yy].bits.dig = DFHack::designation_u_stair;
                                            break;
                                        case 'j':
                                            designationBlock[xx][yy].bits.dig = DFHack::designation_d_stair;
                                            break;
                                        case 'r':
                                            designationBlock[xx][yy].bits.dig = DFHack::designation_ramp;
                                            break;
                                    }
                                
                                }
                        }
                        yidx++;
                    }
                    Maps->Start();
                    Maps->WriteDesignations(x,y,z,&designationBlock);
                }
            }
        }
    }
    }
    DF->Detach();
    #ifndef LINUX_BUILD
    std::cout << "Done. Press any key to continue" << std::endl;
    cin.ignore();
    #endif
    return 0;
}
Exemple #3
0
int main (int numargs, char ** args)
{
    DFHack::ContextManager DFMgr("Memory.xml");
    DFHack::Context *DF = DFMgr.getSingleContext();
    DFHack::Process * p;
    try
    {
        DF->Attach();
    }
    catch (exception& e)
    {
        cerr << e.what() << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }
    p = DF->getProcess();
    string check = "";
    if(numargs == 2)
        check = args[1];

    DFHack::Creatures * Creatures = DF->getCreatures();
    Materials = DF->getMaterials();
    DFHack::Translation * Tran = DF->getTranslation();

    uint32_t numCreatures;
    if(!Creatures->Start(numCreatures))
    {
        cerr << "Can't get creatures" << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }
    if(!numCreatures)
    {
        cerr << "No creatures to print" << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }
    mem = DF->getMemoryInfo();

    if(!Materials->ReadInorganicMaterials())
    {
        cerr << "Can't get the inorganics types." << endl;
        return 1;
    }
    if(!Materials->ReadCreatureTypesEx())
    {
        cerr << "Can't get the creature types." << endl;
        return 1; 
    }
    if(!Tran->Start())
    {
        cerr << "Can't get name tables" << endl;
        return 1;
    }
    vector<uint32_t> addrs;
    //DF.InitViewAndCursor();
    for(uint32_t i = 0; i < numCreatures; i++)
    {
        DFHack::t_creature temp;
        unsigned int current_job;
        unsigned int mat_start;
        unsigned int mat_end;
        unsigned int j,k;
        unsigned int matptr;

        Creatures->ReadCreature(i,temp);
        if(temp.mood>=0)
        {
            current_job = p->readDWord(temp.origin + 0x390);
            if(current_job == 0)
                continue;
            mat_start = p->readDWord(current_job + 0xa4 + 4*3);
            mat_end = p->readDWord(current_job + 0xa4 + 4*4);
            for(j=mat_start;j<mat_end;j+=4)
            {
                matptr = p->readDWord(j);
                for(k=0;k<4;k++)
                    printf("%.4X ", p->readWord(matptr + k*2));
                for(k=0;k<3;k++)
                    printf("%.8X ", p->readDWord(matptr + k*4 + 0x8));
                for(k=0;k<2;k++)
                    printf("%.4X ", p->readWord(matptr + k*2 + 0x14));
                for(k=0;k<3;k++)
                    printf("%.8X ", p->readDWord(matptr + k*4 + 0x18));
                for(k=0;k<4;k++)
                    printf("%.2X ", p->readByte(matptr + k + 0x24));
                for(k=0;k<6;k++)
                    printf("%.8X ", p->readDWord(matptr + k*4 + 0x28));
                for(k=0;k<4;k++)
                    printf("%.2X ", p->readByte(matptr + k + 0x40));
                for(k=0;k<9;k++)
                    printf("%.8X ", p->readDWord(matptr + k*4 + 0x44));
                printf(" [%p]\n", matptr);
            }
        }
    }
    Creatures->Finish();
    DF->Detach();
    return 0;
}
Exemple #4
0
int main ( int argc, char** argv )
{
    DFHack::memory_info *mem;
    DFHack::Process *proc;
    uint32_t creature_pregnancy_offset;
    
    //bool femaleonly = 0;
    bool showcreatures = 0;
    int maxpreg = 1000; // random start value, since its not required and im not sure how to set it to infinity
    list<string> s_creatures;
    
    // parse input, handle this nice and neat before we get to the connecting
    argstream as(argc,argv);
    as // >>option('f',"female",femaleonly,"Impregnate females only")
        >>option('s',"show",showcreatures,"Show creature list (read only)")
        >>parameter('m',"max",maxpreg,"The maximum limit of pregnancies ", false)
        >>values<string>(back_inserter(s_creatures), "any number of creatures")
        >>help();
        
    // make the creature list unique
    s_creatures.unique();
    
    if (!as.isOk())
    {
        cout << as.errorLog();
        return(0);
    }
    else if (as.helpRequested())
    {
        cout<<as.usage()<<endl;
        return(1);
    }
    else if(showcreatures==1)
    {
    }
    else if (s_creatures.size() == 0 && showcreatures != 1)
    {
        cout << as.usage() << endl << "---------------------------------------" << endl;
        cout << "Creature list empty, assuming CATs" << endl;
        s_creatures.push_back("CAT");
    }

    DFHack::ContextManager DFMgr("Memory.xml");
    DFHack::Context *DF;
    try
    {
        DF = DFMgr.getSingleContext();
        DF->Attach();
    }
    catch (exception& e)
    {
        cerr << e.what() << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }

    proc = DF->getProcess();
    mem = DF->getMemoryInfo();
    DFHack::Materials *Mats = DF->getMaterials();
    DFHack::Creatures *Cre = DF->getCreatures();
    creature_pregnancy_offset = mem->getOffset("creature_pregnancy");

    if(!Mats->ReadCreatureTypesEx())
    {
        cerr << "Can't get the creature types." << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }

    uint32_t numCreatures;
    if(!Cre->Start(numCreatures))
    {
        cerr << "Can't get creatures" << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }

    int totalcount=0;
    int totalchanged=0;
    string sextype;

    // shows all the creatures and returns.

    int maxlength = 0;
    map<string, vector <t_creature> > male_counts;
    map<string, vector <t_creature> > female_counts;
    
    // classify
    for(uint32_t i =0;i < numCreatures;i++)
    {
        DFHack::t_creature creature;
        Cre->ReadCreature(i,creature);
        DFHack::t_creaturetype & crt = Mats->raceEx[creature.race];
        string castename = crt.castes[creature.sex].rawname;
        if(castename == "FEMALE")
        {
            female_counts[Mats->raceEx[creature.race].rawname].push_back(creature);
            male_counts[Mats->raceEx[creature.race].rawname].size();
        }
        else // male, other, etc.
        {
            male_counts[Mats->raceEx[creature.race].rawname].push_back(creature);
            female_counts[Mats->raceEx[creature.race].rawname].size(); //auto initialize the females as well
        }
    }
    
    // print (optional)
    if (showcreatures == 1)
    {
        cout << "Type\t\tMale #\tFemale #" << endl;
        for(map<string, vector <t_creature> >::iterator it1 = male_counts.begin();it1!=male_counts.end();it1++)
        {
            cout << it1->first << "\t\t" << it1->second.size() << "\t" << female_counts[it1->first].size() << endl;
        }
    }
    
    // process
    for (list<string>::iterator it = s_creatures.begin(); it != s_creatures.end(); ++it)
    {
        std::string clinput = *it;
        std::transform(clinput.begin(), clinput.end(), clinput.begin(), ::toupper);
        vector <t_creature> &females = female_counts[clinput];
        uint32_t sz_fem = females.size();
        totalcount += sz_fem;
        for(uint32_t i = 0; i < sz_fem && totalchanged != maxpreg; i++)
        {
            t_creature & female = females[i];
            uint32_t preg_timer = proc->readDWord(female.origin + creature_pregnancy_offset);
            if(preg_timer != 0)
            {
                proc->writeDWord(female.origin + creature_pregnancy_offset, rand() % 100 + 1);
                totalchanged++;
            }
        }
    }

    cout << totalchanged << " pregnancies accelerated. Total creatures checked: " << totalcount << "." << endl;
    Cre->Finish();
    DF->Detach();
    #ifndef LINUX_BUILD
        cout << "Done. Press any key to continue" << endl;
        cin.ignore();
    #endif
    return 0;
}
Exemple #5
0
int main ()
{
    DFHack::Process *proc;
    DFHack::memory_info *meminfo;
    DFHack::DfVector *items_vector;
    DFHack::t_item_df40d item_40d;
    DFHack::t_matglossPair item_40d_material;
    vector<DFHack::t_matgloss> stoneMat;
    uint32_t item_material_offset;
    uint32_t temp;
    int32_t type;
    int items;
    int found = 0, converted = 0;

    DFHack::API DF("Memory.xml");
    try
    {
        DF.Attach();
    }
    catch (exception& e)
    {
        cerr << e.what() << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        return 1;
    }
    
    // Find out which material is bauxite
    if(!DF.ReadStoneMatgloss(stoneMat))
    {
        cout << "Materials not supported for this version of DF, exiting." << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        DF.Detach();
        return EXIT_FAILURE;
    }
    int bauxiteIndex = -1;
    for (int i = 0; i < stoneMat.size();i++)
    {
        if(strcmp(stoneMat[i].id, "BAUXITE") == 0)
        {
            bauxiteIndex = i;
            break;
        }
    }
    if(bauxiteIndex == -1)
    {
        cout << "Cannot locate bauxite in the DF raws, exiting" << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        DF.Detach();
        return EXIT_FAILURE;
    }
    
    // Get some basics needed for full access
    proc = DF.getProcess();
    meminfo = proc->getDescriptor();
    
    // Get the object name/ID mapping
    //FIXME: work on the 'supported features' system required

    // Check availability of required addresses and offsets (doing custom stuff here)

    items = meminfo->getAddress("items");
    item_material_offset = meminfo->getOffset("item_materials");
    if( !items || ! item_material_offset)
    {
        cout << "Items not supported for this DF version, exiting" << endl;
        #ifndef LINUX_BUILD
            cin.ignore();
        #endif
        DF.Detach();
        return EXIT_FAILURE;
    }
    
    items_vector = new DFHack::DfVector (proc->readVector (items, 4));
    for(uint32_t i = 0; i < items_vector->getSize(); i++)
    {
        // get pointer to object
        temp = * (uint32_t *) items_vector->at (i);
        // read object
        proc->read (temp, sizeof (DFHack::t_item_df40d), (uint8_t *) &item_40d);

        // resolve object type
        type = -1;
        
        // skip things we can't identify
        if(!meminfo->resolveObjectToClassID (temp, type))
            continue;
        string classname;
        if(!meminfo->resolveClassIDToClassname (type, classname))
            continue;
       
        if(classname == "item_trapparts")
        {
            proc->read (temp + item_material_offset, sizeof (DFHack::t_matglossPair), (uint8_t *) &item_40d_material);

            cout << dec << "Mechanism at x:" << item_40d.x << " y:" << item_40d.y << " z:" << item_40d.z << " ID:" << item_40d.ID << endl;
            
            if (item_40d_material.index != bauxiteIndex)
            {
                item_40d_material.index = bauxiteIndex;
                proc->write (temp + item_material_offset, sizeof (DFHack::t_matglossPair), (uint8_t *) &item_40d_material);
                converted++;
            }

            found++;
        }
    }


    if (found == 0)
    {
        cout << "No mechanisms to convert" << endl;
    } else {
        cout << found << " mechanisms found" << endl;
        cout << converted << " mechanisms converted" << endl;
    }

    DF.Resume();
    DF.Detach();

    delete items_vector;

#ifndef LINUX_BUILD
    cout << "Done. Press any key to continue" << endl;
    cin.ignore();
#endif

    return 0;
}
Exemple #6
0
int main (int argc, char *argv[])
{
    bool print_refs = false;
    bool print_hex = false;
    bool print_acc = false;

    for(int i = 1; i < argc; i++)
    {
        char *arg = argv[i];
        if (arg[0] != '-')
            continue;

        for (; *arg; arg++) {
            switch (arg[0]) {
            case 'r':
                print_refs = true;
                break;
            case 'x':
                print_hex = true;
                break;
            case 'a':
                print_acc = true;
                break;
            }
        }
    }


    DFHack::Process * p;
    DFHack::ContextManager DFMgr("Memory.xml");
    DFHack::Context * DF;
    try
    {
        DF = DFMgr.getSingleContext();
        DF->Attach();
    }
    catch (exception& e)
    {
        cerr << e.what() << endl;
#ifndef LINUX_BUILD
        cin.ignore();
#endif
        return 1;
    }
    DFHack::Materials * Materials = DF->getMaterials();
    Materials->ReadAllMaterials();

    DFHack::Gui * Gui = DF->getGui();

    DFHack::Items * Items = DF->getItems();
    Items->Start();

    DFHack::VersionInfo * mem = DF->getMemoryInfo();
    p = DF->getProcess();
    int32_t x,y,z;
    Gui->getCursorCoords(x,y,z);

    std::vector<uint32_t> p_items;
    Items->readItemVector(p_items);
    uint32_t size = p_items.size();

    // FIXME: tools should never be exposed to DFHack internals!
    DFHack::OffsetGroup* itemGroup = mem->getGroup("Items");
    uint32_t ref_vector = itemGroup->getOffset("item_ref_vector");

    for(size_t i = 0; i < size; i++)
    {
        DFHack::dfh_item itm;
        memset(&itm, 0, sizeof(DFHack::dfh_item));
        Items->readItem(p_items[i],itm);

        if (x != -30000
                && !(itm.base.x == x && itm.base.y == y && itm.base.z == z
                     && itm.base.flags.on_ground
                     && !itm.base.flags.in_chest
                     && !itm.base.flags.in_inventory
                     && !itm.base.flags.in_building))
            continue;

        printf(
            "%5d: %08x %6d %08x (%d,%d,%d) #%08x [%d] *%d %s - %s\n",
            i, itm.origin, itm.id, itm.base.flags.whole,
            itm.base.x, itm.base.y, itm.base.z,
            itm.base.vtable,
            itm.wear_level,
            itm.quantity,
            Items->getItemClass(itm).c_str(),
            Items->getItemDescription(itm, Materials).c_str()
        );

        if (print_hex)
            hexdump(DF,p_items[i],0x300);

        if (print_acc)
            cout << Items->dumpAccessors(itm) << endl;

        if (print_refs) {
            DFHack::DfVector<uint32_t> p_refs(p, itm.origin + ref_vector);
            for (size_t j = 0; j < p_refs.size(); j++) {
                uint32_t vptr = p->readDWord(p_refs[j]);
                uint32_t val = p->readDWord(p_refs[j]+4);
                printf("\t-> %d \t%s\n", int(val), p->readClassName(vptr).c_str());
            }
        }
    }
#ifndef LINUX_BUILD
    cout << "Done. Press any key to continue" << endl;
    cin.ignore();
#endif
    return 0;
}